ORDER NO. KMS0304726C3
Hybrid IP-PBX
KX-TDA100BX (for Asia, Middle Near East, South America and Africa)
IMPORTANT INFORMATION ABOUT LEAD FREE, (PbF), SOLDERING If lead free solder was used in the manufacture of this product the printed circuit boards will be marked PbF. Standard leaded, (Pb), solder can be used as usual on boards without the PbF mark. When this mark does appear please read and follow the special instructions described in this manual on the use of PbF and how it might be permissible to use Pb solder during service and repair work.
© 2003 Panasonic Communications Co., Ltd. All rights reserved. Unauthorized copying and distribution is a violation of law.
KX-TDA100BX
CONTENTS Page 1 ABOUT LEAD FREE SOLDER (PbF: Pb free) 1.1. SUGGESTED PbF SOLDER
Page
3
11.1. INTRUDUCTION
31
3
11.2. TYPICAL EXAMPLE
32
11.3. MPR CARD
33
11.4. ERROR LOG
50
1.2. HOW TO RECOGNIZE THAT Pb FREE SOLDER IS USED
4
2 FOR SERVICE TECHNICIANS
4
3 CAUTION
12 DIAGNOSIS
55
5
12.1. DIAGNOSIS FEATURES
55
3.1. NOTE
5
12.2. DIAGNOSIS TEST
59
3.2. SAFETY PRECAUTIONS
5
3.3. INSULATION RESISTANCE TEST
5
3.4. BATTERY CAUTION
5
14 TERMINAL GUIDE OF ICS, TRANSISTORS AND DIODES
68
3.5. CAUTION
5
15 HOW TO REPLACE A FLAT PACKAGE IC
69
13 IC DATA 13.1. IC101
64 64
6
15.1. PREPARATION
69
4.1. GENERAL DESCRIPTION
6
15.2. PROCEDURE
69
4.2. CHARACTERISTICS
6
15.3. REMOVING SOLDER FROM BETWEEN PINS
69
4.3. SYSTEM CAPACITY
7
4 SPECIFICATIONS
5 SYSTEM OVERVIEW 5.1. SYSTEM CONFIGURATIONS 5.2. SYSTEM COMPONENTS 5.3. SYSTEM CONNECTION DIAGRAM
16 CABINET AND ELECTRICAL PARTS LOCATION 16.1. EXTENSION BOARDS FOR SERVICING
8
70 71
8
17 ACCESSORIES AND PACKING MATERIALS
72
9
18 REPLACEMENT PARTS LIST
73
10
18.1. CABINET AND ELECTRICAL PARTS
73
6 NAME AND LOCATIONS
12
18.2. ACCESSORIES AND PACKING MATERIALS
73
7 DISASSEMBLY INSTRUCTIONS
13
18.3. MPR CARD PARTS
74
7.1. DISASSEMBLY INSTRUCTION (MPR CARD)
13
18.4. BACK/LED BOARD PARTS
79
7.2. DISASSEMBLY INSTRUCTION (BACK BOARD)
14
18.5. FIXTURES AND TOOLS
80
8 OUTLINE
16
19 FOR THE SCHEMATIC DIAGRAM
81
8.1. GENERAL DESCRIPTION
16
20 SCHEMATIC DIAGRAM
82
8.2. SYSTEM CONTROL
17
20.1. MPR CARD
82
8.3. BACK BOARD SIGNAL CONNECTION DIAGRAM
20
20.2. BACK/LED BOARD
87
20.3. WAVEFORM
90
9 MPR CARD CIRCUIT OPERATION 9.1. MPR CARD
23 23
21 PRINTED CIRCUIT BOARD
92
10 BACK BOARD CIRCUIT OPERATION
30
21.1. MPR CARD
92
11 TROUBLESHOOTING GUIDE
31
21.2. BACK/LED BOARD
94
2
KX-TDA100BX
1 ABOUT LEAD FREE SOLDER (PbF: Pb free) Note: In the information below, Pb, the symbol for lead in the periodic table of elements, will refer to standard solder or solder that contains lead. We will use PbF when discussing the lead free solder used in our manufacturing process which is made from Tin, (Sn), Silver, (Ag), and Copper, (Cu). This model, and others like it, manufactured using lead free solder will have PbF stamped on the PCB. For service and repair work we suggest using the same type of solder although, with some precautions, standard Pb solder can also be used. Caution · PbF solder has a melting point that is 50° ~ 70° F, (30° ~ 40°C) higher than Pb solder. Please use a soldering iron with temperature control and adjust it to 700° ± 20° F, (370° ± 10°C). In case of using high temperature soldering iron, please be careful not to heat too long. · PbF solder will tend to splash if it is heated much higher than its melting point, approximately 1100°F, (600°C). · If you must use Pb solder on a PCB manufactured using PbF solder, remove as much of the original PbF solder as possible and be sure that any remaining is melted prior to applying the Pb solder. · When applying PbF solder to double layered boards, please check the component side for excess which may flow onto the opposite side (See figure, below).
1.1.
SUGGESTED PbF SOLDER
There are several types of PbF solder available commercially. While this product is manufactured using Tin, Silver, and Copper, (Sn+Ag+Cu), you can also use Tin and Copper, (Sn+Cu), or Tin, Zinc, and Bismuth, (Sn+Zn+Bi). Please check the manufac turer’s specific instructions for the melting points of their products and any precautions for using their product with other materials. The following lead free (PbF) solder wire sizes are recommended for service of this product: 0.3mm, 0.6mm and 1.0mm.
3
KX-TDA100BX
1.2.
HOW TO RECOGNIZE THAT Pb FREE SOLDER IS USED Marked PbF (PbF is marked around here)
(Component View)
X202
RA308 25
48
25
29
12
D407
2
C408
30
48 L401
14 IC311 8
1
R307
7 8 1
R306
IC
R12 R12 R12 R10 R10
R 16
14 16 IC310 9 IC1
1
1
44
C402
J314 23
22
R230
RA309
R232
1
1
16 10
11 1
RES
R550
PbF
8 12
SG
R211 R216
L204 R229 L205 FIL204 14 L206 R231 IC1 L207 FIL205 L208 R233
R218 L210 C212
CN211
R209
IC302
9 1
SG
R220
44
1
24
1
1
24
R241
C208
1 CN206
IC304
IC303
1
IC205
R239
13
R243
PSUP1317ZB
C218 R247 R248 C217 48
RA202 24 37 25 C213 36 R244 R242
QA103
QA101 R148
BATALM LED103 R176 R164 LED101 SDIN
R251R240
J113
Marked PbF (PbF is marked around here)
(Component View)
B1
B45 A45 A1
CN107
B1
B45
R313 R306 R311 R303 R307 C203 R302 R308 R317 R314 R305 R318 R342 R316 R315 R310 R304 C201 R312 R340 C202 R309 R301 C204
A45
C209 R347 C210 R344 R348 R343 R345 R346 C207 C208
PbF A1
CN112
B1
B45 1
L105 L104 L106 L110 L111
R338 R333 R332 C206 R337
R335 R334 R326 R330 R329 R323 C205 R331 R325 R324 R336 R328 R327
PSUP1367Z-A
2 FOR SERVICE TECHNICIANS ICs and LSIs are vulnerable to static electricity. When repairing, the following precautions will help prevent recurring malfunctions. 1. Cover the plastic parts boxes with aluminum foil. 2. Ground the soldering irons. 3. Use a conductive mat on the worktable. 4. Do not touch IC or LSI pins with bare fingers.
4
LED202 ALM
PSUP1367Z-B
LED201
RUN
B
B
CN113
L112 L108 L101 L103 9 L107 L109 L102 1 CN114 3
1
3 CN201
KX-TDA100BX
3 CAUTION 3.1.
NOTE
When you note the serial number, write down all of the 11 digits. The serial number may be found on the label affixed to the bottom of the unit.
3.2.
SAFETY PRECAUTIONS
1. Before servicing, unplug the power cord to prevent an electric shock. 2. When replacing parts, use only the manufacturer´s recommended components for safety. 3. Check the condition of the power cord. Replace if wear or damage is evident. 4. After servicing, be sure to restore the lead dress, insulation barriers, insulation papers, shields, etc. 5. Before returning the serviced equipment to the customer, be sure to perform the following insulation resistance test to prevent the customer from being exposed to shock hazards.
3.3.
INSULATION RESISTANCE TEST
1. Unplug the power cord and short the two prongs of the plug with a jumper wire. 2. Turn on the power switch. 3. Measure the resistance value with ohmmeter between the jumpered AC plug and each exposed metal cabinet part, such as screw threads, control shafts, handle brackets, etc. Note: Some exposed parts may be isolated from the chassis by design. These will read infinity. 4. If the measurement is outside the specified limits, there is a possibility of shock hazard. The equipment should be repaired and rechecked before it is returned to the customer.
3.4.
BATTERY CAUTION
1. Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the manufacturer’s Instructions. 2. The lithium battery is a critical component (type No.CR23541). Please observe for the proper polarity and the exact location when replacing it and soldering the replacement lithium battery in.
3.5.
CAUTION
The power socket wall outlet should be located near this equipment and be easily accessible.
5
KX-TDA100BX
4 SPECIFICATIONS 4.1.
GENERAL DESCRIPTION
Control Bus Communication Bus Switching Power Input
PSU-S (KX-TDA0108) PSU-M (KX-TDA0104)
External Battery Maximum Power Failure Tolerance Memory Backup Duration Dialling Trunk Extension Mode Conversion Ring Frequency Trunk Loop Limit Operating Environment
Temperature Humidity
Conference Call Trunk Music on Hold (MOH)
Paging Serial Interface Port
Internal External RS-232C USB
Extension Connection Cable
Dimension
KX-TDA100
Weight (when fully mounted) KX-TDA100
4.2.
Original bus (16 bit, 8 MHz,10 megabytes per second) H.100 bus conformity (1024 time slot) Non Blocking Distributed Time Switch 100 V AC to 130 V AC/200 V AC to 240 V AC, 1.4 A/0.8 A, 50 Hz/60 Hz 100 V AC to 130 V AC/200 V AC to 240 V AC, 2.5 A/1.4 A, 50 Hz/60 Hz +36 V DC (+12 V DC x 3, battery capacity of 28 Ah or below recommended for 1 external battery) 300 ms (without using backup battery) 7 years Dial Pulse (DP) 10 pps, 20 pps Tone (DTMF) Dialling Dial Pulse (DP) 10 pps, 20 pps Tone (DTMF) Dialling DP-DTMF, DTMF-DP 20 Hz/25 Hz (selectable) 1600 Ω maximum 0 °C to 40 °C 10%to 90% (non condensing) From 10 x 3-party conference call to 4 x 8-party conference call 2 ports (Level Control: -11 dB to +11 dB in 1 dB steps) MOH1: External Music Source port MOH2: Selectable Internal/External Music Source port Level Control: -6 dB to +3 dB in 3 dB steps 2 ports (Volume Control: -15 dB to +15 dB in 1 dB steps) 1 (max 115.2 kbps) 1 SLT 1 pair wire (T, R) DPT 1-pair wire (D1, D2) or 2-pair wire (T, R, D1, D2) APT 2-pair wire (T, R, D1, D2) DSS Consoles and Add-on Key Module 1-pair wire (D1, D2) 334 mm (W) x 390 mm (H) x 270 mm (D) (13 5/32 in x 15 11/32 in x 10 5/8 in) Under 12 kg (26.5 lb)
CHARACTERISTICS
Terminal Equipment Loop Limit
· PT: KX-T76xx series and KX-T7560/KX-T7565: 90 Ω; all other DPTs/APTs: 40 Ω · SLT: 600 Ω including set · Doorphone: 20 Ω
Minimum Leakage Resistance Maximum Number of Extension Instruments per Line Ring Voltage Trunk Loop Limit Hookswitch Flash/Recall Timing Range BRI Cards Internal ISDN Mode
Door Opener Current Limit Paging Terminal Impedance MOH (Music on Hold) Terminal Impedance
· CS: 130 Ω 15000 Ω maximum 1 for PT or SLT 2 by Parallel or eXtra Device Port connection of a PT and an SLT 75 Vrms at 20 Hz/25 Hz depending on the Ringing Load 1600 Ω maximum 24 ms to 2032 ms Supply Voltage: 40 V Power Supply: 4.5 W per 1 line,10 W per 4 lines (BRI4) 4.5 W per 1 line, 20 W per 8 lines (BRI8) Power Supply Method: Phantom Power Supply 24 V DC/30 V AC, 1 A maximum 600 Ω 10000 Ω
6
KX-TDA100BX
4.3.
SYSTEM CAPACITY
4.3.1.
Maximum Trunk and Extension Cards
The following number of trunk and extension cards can be installed in the main unit (Hybrid IP-PBX) for expansion. Card Type Trunk Card *1 Extension Card Total
KX-TDA100 4 4 5
*1 One T1, E1, PRI30 and PRI23 card counts as 2 cards. Note: · For each card, a maximum number that can be installed in the main unit (Hybrid IP-PBX) is listed in "Installation Manual". · Any card that exceeds the capacity of the main unit (Hybrid IP-PBX) will be ignored. · When the main unit (Hybrid IP-PBX) starts up with an invalid configuration mode, some cards will be ignored.
4.3.2.
Maximum Terminal Equipment
The following number of terminal equipment can be supported by the main unit (Hybrid IP-PBX). Terminal Equipment Type Telephone *1 CS PS Voice Mail Doorphone Door Opener
KX-TDA100 64 16 128 2 8 8
*1 When only T76xx series and T7560, T7565 DPTs and SLTs are connected. If other DPTs or APTs are connected, the maximum number will decrease as each of these units is counted as 4 sets of SLTs or DPTs (T76xx series and T7560, T7565).
4.3.3.
Power Supply Unit Selection
Main unit (Hybrid IP-PBX) needs an optional power supply unit (PSU) suitable for its configuration. Calculate the amount of "load figures" from the type and number of equipment to be connected, and determine the type of PSU that will be required. Load Figure Calculation PT Extension Card *1
Equipment Type DPT (T76xx series and T7560, T7565) Other DPT/APT/DSS Console DHLC8 SLC8 SLC16 MSLC16 CS ISDN Extension Voice Mail
*1 Only the extension cards that can support SLTs count for the load figures. PSU Capability Each PSU supports a different amount of load figures. PSU Type
Maximum Load Figures 64 128
PSU-S PSU-M *2
*2 Available for the KX-TDA100 and KX-TDA200.
7
Load Figure 1 4 8 8 16 16 4 2 1
KX-TDA100BX
5 SYSTEM OVERVIEW 5.1.
SYSTEM CONFIGURATIONS
8
KX-TDA100BX
5.2.
SYSTEM COMPONENTS
Model Shelf KX-TDA100BX Main Central Processing Card MPR Option Card KX-TDA0196XJ CO Line Cards KX-TDA0180X KX-TDA0181X KX-TDA0184XJ KX-TDA0188XJ KX-TDA0193XJ KX-TDA0284XJ KX-TDA0288XJ KX-TDA0290CJ KX-TDA0290X KX-TDA0480X Extension Cards KX-TDA0144XJ KX-TDA0170XJ KX-TDA0171XJ KX-TDA0172XJ KX-TDA0173XJ KX-TDA0174XJ KX-TDA0175XJ Other Cards KX-TDA0161XJ KX-TDA0166XJ KX-TDA0190XJ KX-TDA0191XJ KX-TDA0410XJ Power Supply Units KX-TDA0104XJ (PSUs) KX-TDA0108XJ Cell Stations (CS’s) KX-TDA0142CE Proprietary Equipment KX-A228XJ KX-A229XJ KX-A258XJ KX-T30865X
Card Name MPR RMT LCOT8 LCOT16 E&M8 E1 CID8 BRI4 BRI8 PRI30 PRI23 IP-GW4 CSIF8 DHLC8 DLC8 DLC16 SLC8 SLC16 MSLC16 DHP4 ECHO16 OPB3 MSG4 CTI-LINK PSU-M PSU-S
Description Basic Shelf Main Processing Card Remote Card 8-Port Analogue Trunk Card 16-Port Analogue Trunk Card 8-Port E &M Trunk Card E-1 Trunk Card 8-Port Caller ID Card 4-Port BRI Card 8-Port BRI Card PRI Card PRI Card 4-Channel VoIP Gateway Card 8 Cell Station Interface Card 8-Port Digital Hybrid Extension Card 8-Port Digital Extension Card 16-Port Digital Extension Card 8-Port Single Line Telephone Extension Card 16-Port Single Line Telephone Extension Card 16-Port Single Line Telephone Extension with Message Lamp Card 4-Port Doorphone Card 16-Channel Echo Canceller Card Optional 3-Slot Base Card 4-Channel Message Card CTI Link Card M-Type Power Supply Unit S-Type Power Supply Unit 4-Channel Cell Station Unit for DECT Portable Station S/M-type Back-up Battery Cable L-type Back-up Battery Cable Blank Slot Cover Doorphone
Available Telephones This main unit (Hybrid IP-PBX) supports all of the Panasonic KX-T7xxx and KX-TD7xxx series: · Digital/Analog proprietary telephones (e.g., KX-T7625, KX-T7630, KX-T7633, KX-T7636) · Portable stations (e.g., KX-TD7690, KX-TD7680) · DSS consoles (e.g., KX-T7640) This main unit (Hybrid IP-PBX) does not support the following telephones: · KX-T308xx series Proprietary Telephones and DSS consoles · KX-T616xx series Proprietary Telephones and DSS consoles · KX-T1232xx series Proprietary Telephones and DSS consoles For the equipment (e.g., Add-on Key Module, USB Module, Headset) that can be connected to a particular telephone, refer to the telephone’s manual. Abbreviations in this manual Proprietary telephone: PT Digital proprietary telephone: DPT Analog proprietary telephone: APT Portable station: PS Single line telephone: SLT Note: · There are some optional service cards and features that are not available for certain countries/areas. Consult your authorized Panasonic dealer for detailed instructions. · The power supply capacity of this main unit (Hybrid IP-PBX) may differ from the values described in this manual depending on the model number. Please consult your dealer for detailed information.
9
KX-TDA100BX
5.3.
SYSTEM CONNECTION DIAGRAM
10
KX-TDA100BX
*Only 1 Server PC can be connected to the main unit (Hybrid IP-PBX). Two or more Server PCs cannot be used simultaneously.
11
KX-TDA100BX
6 NAME AND LOCATIONS
· Null slot: Null slot is not available for any optional service card. RUN Indicator
ALARM Indicator
LED Type LED1 (Power/RUN)
LED2 (Alarm)
Slot Type Free Slots 1 to 5 Option Card Slot MPR Card Slot
Color Green
Red
Usage and Status Definition Display of Power Supply & RUN Status OFF: Power OFF (inc. in normal resetting) ON: Power ON & RUN (On-Line) Flash (60/min.): Power ON & In starting Flash (120/min.): Power ON & In resetting before system clear Display of ALARM OFF: Normal ON: Alarm (CPU stop, Alarm for each card) Flash: Alarm (MPR file error in restarting)
MPR Card
CO Line Cards Extension Cards Yes No No
No No Yes
12
OPB3 Card CTL-LINK Card Yes Yes No
KX-TDA100BX
7 DISASSEMBLY INSTRUCTIONS 7.1.
DISASSEMBLY INSTRUCTION (MPR CARD)
1. Remove the Lib by sliding it in the direction of arrow 1. 2. This will be removed if the user attached a Pad Lock as shown in a Fig.1. 3. Loosen the Screw. 4. Front Cover is removed in the direction of arrow 2.
5. Loosen the two Screws. 6. Remove the MPR Card.
13
KX-TDA100BX
7.2.
DISASSEMBLY INSTRUCTION (BACK BOARD)
1. Remove four Screws (A). 2. Remove the Left Side Cover and the Right Side Cover.
3. Remove the Hook. Remove the Top Cover.
4. Remove nine Screws (B). 5. Remove the Back Cover.
14
KX-TDA100BX
6. Remove the RS-232C Connector and LED Connector from Back Board 1. 7. Remove eight Screws (C). 8. Remove Back Board 1.
9. Remove the LED Connector from Back Board 2. 10. Remove the Screw (C). 11. Remove Back Board 2.
15
KX-TDA100BX
8 OUTLINE 8.1.
GENERAL DESCRIPTION
The control system of the main unit is composed of the main central processing card (MPR card) controlling the entire system and exchanging voice data, the circuit control section (LPR/LC) controlling various telephone lines and the power supply section (POWER). MPR card, LPR/LC and POWER are connected each other through the System BUS (ADDRESS BUS, DATA BUS and CONTROL BUS). MPR card and LPR/LC are under I/O control (I/O Read/Write) by MPR card. MPR card controls LPR which have a microprocessor by the lnter-Microprocessor Communication System supported by ASIC. Those are, MPR card and LPR exchange controlling messages through bi-directional buffer and CPU controls LPR so that it can manage multiple telephone lines. Since LC does not have a microprocessor, it is completely controlled through ASIC from MPR card. I/O address for LPR access is fixed for each free slot. CPU discriminates the sort of LPR through the inter-processor communication system. POWER detects the voltage drop of the AC input and the DC output and transfers it to MPR card.
8.1.1.
MPR Card
This card is the main control section of main unit. It controls all the cards mounted on the free slots, and communication of RS232C ports. There are two LED (BATT ALARM, SD ACCESS), one SD card slot, one push switch, one slide switch, one USB port, two MOH jacks, and two EPG jacks in the front of MPR card. BATT ALARM LED light red if the output of the lithium battery in MPR card is set to about 2.8V or less. During access to SD card, it green-blinks or SD ACCESS LED light and blink. Enclosed SD card is used for SD card slot on a main part, putting in. The main program is stored in SD card. It connects with PC and a USB port is used for a maintenance or a system setup. The external sound source for BGM or suspension sound is connected to a MOH jack. A speaker with amplifier is connected to external paging at an EPG jack. Light Emitting Diode (RUN indicator, ALARMindicator) arranged at the main part upper part is directly controlled from MPR card, and shows the state of a system of operation. This control circuit executes the control signals for the exchange process, and this card is composed of the following (A) 32bit CPU (32bit data bus) (B) SDRAMs, SRAMs (C) Flash memorys (D) Lithium Battery for back-up of clock IC and Static RAMs
8.1.2.
Back Board
BB (back board) is the mother board of the basic shelf. This board connects each card/unit (POWER, MPR card, and optional service cards) together. This board has one RS-232C connector.
8.1.3.
Power Supply Unit
This unit is switching regulator power supply and supplies DC voltages to MPR card, and optional card (free slot). PSU (power supply unit) has four outputs (40V, 30V, 15VPT, 15V). 15V output is supplied only in MPR card and option card. Other outputs are mainly used as an object for the electric supply to a terminal. Refer to each S/M for the details of PSU.
16
KX-TDA100BX
8.2. 8.2.1.
SYSTEM CONTROL System Control Block Diagram
17
KX-TDA100BX
8.2.2.
Voice (TDM Highway) Bus Block Diagram
18
KX-TDA100BX
8.2.3.
Voice Bus Logical Assignment
In the line card, the CT_D line number, which is output in accordance with the inserted slot, and the time slot are assigned by software. For the detail of output slot for each card (optional service card), refer to the service manual of the card (optional service card).
8.2.4.
Back Board Signaling
Back board waveform of TDM bus for voice
19
KX-TDA100BX
8.3. 8.3.1.
BACK BOARD SIGNAL CONNECTION DIAGRAM CT Bus System Connection Diagram
20
KX-TDA100BX
8.3.2.
EC Bus System Connection Diagram
21
KX-TDA100BX
8.3.3.
System Control and Analog Signal Connection Diagram
8.3.4.
Power Supply System Connection Diagram
22
KX-TDA100BX
9 MPR CARD CIRCUIT OPERATION 9.1.
MPR CARD
9.1.1.
Outline
1) Function · System Control · Circuit Switching (includes gain adjustment function) · Conference Call (3 people x 8 ~ 8 people x 3) · MOH · PAGING · Clock 2) Configuration · Power Supply: DC/DC Converter · CPU: HITACHI SH7709S (133MHz) · ASIC: Our own products · ROM: 4Mbit x 1 (for boot programs) · SDRAM: 64Mbit x 2 (for work area) · SRAM: 4Mbit x 2 (for user data backup) · SD card I/F (for operating programs) x 1 · USB I/F (for PC programming) x 1 · MOH: External sound input x 2 · PAGING: External output x 2 · Expanded memory connector x 1 · Modem card connector x 1 3) Operation Rating · Power Input : +15V · Power Output : +15V (for MOH) +3.3V (for I/O) +3.3VBB (back board signal line pull-up) +3.3VB (for SRAM backup) +1.8V (for CPU core) +1.9VB (for clocking backup) ±9.4V (for RS-232C driver/receiver) +5VRMT unused (for remote card) +5V (for RS-232C driver/receiver)
23
KX-TDA100BX
9.1.2.
Description of Each Part
LED (BATALM): Lights when the lithium battery voltage drops below 2.8V. LED (SD ACCES): Lights on when the SD card is being accessed. SD card slot: Mounts the system program SD card. Reset Switch: Press to reset the system. System Initialize Switch: On default startup, set the switch to the "SYSTEM INITIALIZE" position before turning the power ON. Return the switch to the "NORMAL" position when the main power switch starts to flash. On normal startup, turn the power ON with this switch in the "NORMAL" position. USB connector: B-type connector. Used for PC programming. MOH 1, 2: External music on hold input. PAGING 1, 2: External PAGING output. Connect to a device with a built-in amplifier.
24
ADD BUS CNT BUS
DATA BUS
Dbus Buffer
LD[15:0]
OSC 12MHz X201
X202
to CPU
nDREQ0,1 nDACK0,1
+3.3V +1.8V
nRD
DQMLU,DQMLL
ADD0-7 nCS_SDB
P-I/O Ports
PCMCIA Interface
JTAG Interface
SIO(SCI0)
SIO with FIFO(SCI2)
SIO with FIFO(SCI1)
+3.3VB
DSRs,DTRs, RTS, CTS, nINIT, DIPSWs AC_ALM,DC_ALM,nBATALM POWTYPE[1:0],nBATT
(16bit bus)
4Mbit*2
SRAM Total:1MB (16bit bus)
4Mbit
+3.3V
CH_SEL2
nIRQ
IC406
AGC
AGC
IC408
DQMLU,DQMLL
nCS_5 nWR nRD nBS
CODEC (+3.3V)
IC405
Mu/nA
-9V
IC121
IC120
90pin DIN
RXD1, CS1, DR1
LEDRUN LEDALM
RING_SYNC
RING_SIN
RINGER
nHALT
TXD2 RXD2 DCALM ACALM POWTYPE[1:0] nBATT nLOS
TXD1, RS1, ER1 RCV +5V
CT_NETREF CT_D[7:0] CT_FRAME CT_C8
EC_CLK EC_nRST EC_AD[15:0] EC_CBE[1:0] EC_nPAR EC_nFRAME EC_nTRDY EC_nSTOP EC_nPERR EC_nCDET EC_nINT (EC_IDSEL)
+3.3V_BB (for B.B.)
+15V GND
DRV
+9V,-9V
H100_bus
+3.3V
Termination
EC_bus
Limitter
+3.3V Current
IC403
+1.8V
Series Reg.
SW Reg.
IC402
+3.3V
KX-TDA100 MPR CARD BLOCK DIAGRAM
from CPU(Output Port)
from ASIC(Output Port) from ASIC
to CPU(Input Port)
+5V
Series Reg.
+9V
EC_CLK EC_nRST EC_AD[15:0] EC_CBE[1:0] EC_nPAR EC_nFRAME EC_nTRDY EC_nSTOP EC_nPERR EC_nCDET EC_nINT
IC102
ASIC
SW Reg.
IC413
+15V
SDI,SDO,CTS,RTS CT_NETREF LDHW0,LUHW0 CT_D[7:0] nF0,HW_CLK CT_FRAME CT_C8 CH_SEL[2:0]
PIO[7:4]
nIRQ
nBREQ nBACK
nCS nWR nRD nBS
D0-D15 DATA A1-A23 ADD
HALT, Mu/nA,MOH_SEL, MELODY_SEL
X103
TCXO 16.384MHz
TxD,RxD,CTS,RTS(UART i/f)
CODEC (+3.3V)
IC409
+15V/GND
64Mbit*2 (32bit bus)
SDRAM Total:16 MB
IC305, IC306
nBREQ nBACK
UHW,DHW,CLK(4.096MHz)
DTR,DSR
+3.3V nPRS_RMT GAIN0,GAIN1
Battery (+3.0V)
IC404
Regulator (+1.8V)
IC303 FLASH Total:512KB
+3.3V MELODY_SEL (Software) Melody IC410 IC MOH-SEL (Software)
RMT card (Option)
VRTC
+3.3VB
7pin Conn. (Debug Interface)
DTR,RTS,LEDs,REG,BELTIME
(Checker Pad only)
(for RS232C port)
IC107
Local Reset
OSC 16.384MHz
X101
CoreCLK=131.072MHz
CLK Modulation
32.768kHz
X102
VRTC
CPU
IC101
DQMUU,DQMUL
DC_ALM,nIRQ_USB, nIRQ_SDB
SH7709S
RTC
Interrupu Controller
CS Generation for Flash,SRAM, SDB, USB
D[31:0] LD[15:0] ADD[25:0] nCS_2 etc. RD/nWR nRAS nCAS CKIO CKE
IC103
DMAC
Bus Arbiter
nWR, nRD nCS0,3,4 nRASs, nCASs,etc
IC123, IC124
MPR Card
SW103
Initialize SW
SW101
(Manual Reset SW) Reset to Reset IC
LED103
BATT ALARM
SD-ACCESS
LED101
CN209
OSC 20MHz
D[31:0]
USB Interface (ML60852A) IC204 LD[15:0]
A[25:0]
USB Conn. DQMLU,DQMLL
IC301, IC302
LD[15:0] ADD1-19 nCS_4 RD/nWR nRD +3.3VB
MEC Card (Expansion Memory) (Future option)
LD[15:0]
SD Card Interface (MN5773) IC205
CH_SEL1 MOH2
CH_SEL0
ADD1-23 RD/nWR nRD nCS_0 Paging2
30pin Connection
D[31:0] ADD2-15 nCS_3 RD/nWR nRAS nCAS CLK CKE Paging1
25 MOH1
DQMUU,DQMUL
9.1.3.
SD Card
KX-TDA100BX
Block Diagram
KX-TDA100BX
9.1.4.
Circuit Description
9.1.4.1.
Outline of Block Description
· CPU block Operates the main unit control. Also operates various controls, generation of select signal, DMA control and serial port control. This contains the built-in clock function. · ASIC block Provides the communication between each optional service card, call control (TSW function), conference call, tone generation and gain control function. · Memory block This is a work area used for the main unit control program storage, the system boot program storage, or the user configuration data storage. · USB block Provides the USB I/F function. Connects to the PC to be used for PC programming or system data load/store. · SD card block Provides the SD card I/F function and loads the main unit program and the system data from the SD card containing the main unit control program. · MOH/PAGING block Provides the external music on hold input x 2, and the external paging output x 2 port. Also this provides the external music on hold input 1 system and exclusively the internal music on hold output. · Power block Consists of DC/DC converter circuit and various regulators.
9.1.4.2.
Detail of Block Description
· CPU block Configuration: IC101 (CPU), IC107 (reset IC), IC103 (spread clock IC), X101 (CPU source clock), X102 (clocking clock) etc. Function: (IC101) Generates the select signal in accordance with the memory map and operates read/write of data between each peripheral. Controls the DMA transfer between USB I/F or built-in serial controller and memory. Operates input/output control of each I/O signal in accordance with the program. Contains the built-in clock function (battery backup) with the source clock X102 (32.768 kHz). (IC107) Monitoring the power voltage, it generates a reset signal when the voltage drops under the constant value (2.9Vtyp) or when the reset switch is pressed down. (IC103) To reduce unnecessary radiation, it generates the clock with the constant blurring mainly X101 clock output (16.384 MHz). Description of the Signal on MPR Signal Name +15VIN +15V +9.4V +5V +5VRMT 3.3V_BB +3.3VB
+3.3V 1.9VB
1.8V A[0]-A[25] nAC_ALM nBACK nBATT
Functions +15V DC For Circuit +15V DC MOH For Driver IC +9.4V DC RS-232C For Driver IC +5V DC RS-232C Reserve +3.3V DC For pull-up of back board signal line +3.3V DC Battery backup For SRAM (IC301, IC302) backup +3.3V DC +1.9V DC Battery backup For clock function of CPU (IC100) For Core +1.8V DC CPU (IC100) Address bus AC alarm signal: Indicates AC voltage cutoff. (L: Alarm condition) Bus Acknowledge: Indicates Bus Acknowledge. Indicates whether external battery is connected or not. L: Connected
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KX-TDA100BX
Signal Name nBAT_ALM nBREQ nBS nCASL nCASU CH_SEL[0] CH_SEL[1] CH_SEL[2] CKE CKIO nCS0 nCS2 nCS3 nCS4 nCS5 nCS6 nCS_FLASH0 nCS_FLASH1 nCS_SDB0 nCS_SDB1 nCS_SRAM0 nCS_SRAM1 nCS_USB nCTS2 CTS_RMT CT_C8 CT_D[0] -[7] CT_FRAME CT_NETREF C_CS[0] D[0] -D[31] nDACK0-1 DCD2 DCLK_RMT nDC_ALM DIN_RMT DOUT_RMT DQMLL (nWE0) DQMLU (nWE1) DQMUL (nWE2) DQMUU (nWE3) nDREQ0-1 DSR2 DSR_RMT DTR2 EC_AD[0] -[15] EC_nCBE[1]-[0] EC_nCDET EC_CLK EC_nFRAME EC_nINT EC_PAR EC_nPERR EC_nRST EC_nSTOP EC_nTRDY nFAN_ALM FSEL0 GAIN0-1 HALT nINIT nIRQ_ASIC nIRQ_SDB nIRQ_USB
Functions Battery Alarm Signal: Indicates the declined voltage of lithium battery. (L: Alarm condition) Bus Request: Bus request signal Bus Cycle Start: Bus cycle start signal Lower Byte Address Column Address Strobe: CAS signal for SDRAM Upper Byte Address Column Address Strobe: CAS signal for SDRAM Synchronous Signal for CODEC (For MOH#1/Page#1) Synchronous Signal for CODEC (For MOH#2/Page#2) Synchronous Signal for CODEC (For RMT) Clock Enable: CKE signal for SDRAM Clock I/O Terminal: For bus clock of SDRAM (IC305, IC306) and ASIC (IC101) CPU (IC100) outputs the clock of four times frequency as Source clock (16.384MHz). Chip Select 0: Chip select signal for flash memory Chip Select 2: Chip select signal for the expanded SDRAM (Future Option, Reserve at present.) Chip Select 3: Chip select signal for SDRAM Chip Select 4: Chip select signal for SRAM Chip Select 5: Chip select signal for ASIC Chip Select 6: Chip select signal for USB I/F and SD card I/F Chip Select for Flash memory 0: CS signal for IC303 Chip Select for Flash memory 1: CS signal for IC304 (reserve) Chip Select for Sd card I/F Reserve Chip Select for SRAM 0: CS signal for IC301 Chip Select for SRAM 1: CS signal for IC302 Chip Select for USB I/F Clear To Send from RS-232C connector Clear to Send: Flow signal for modem Clock 8.192MHz clock outputted from PLL master CT Data Bus: Two-way serial data bus to which the drive from any card is possible in the system. Frame Signal: 8KHz frame signal outputted from the master Backup Synchronous Signal (MAX 2MHz) 8KHz signal output from slave etc. Chip Select For RMT Data Bus DMA Acknowledge: For USB I/F Data Carrier Detect Codec Clock (8MHz): For RMT DC ALARM:DC alarm signal; Indicates the declined DC voltage. (L: Alarm condition) Codec Data Input: For RMT Codec Data Output: For RMT Data Input/Output Mask (Write Enable): DQM signal for SDRAM and WE signal for each memory IC and ASIC
DMA Request: For USB I/F Data Set Ready from RS-232C connector Data Set Ready from RS-232C connector Data Terminal Ready to RS-232C connector Address of EC Synchronous Bus, Data Bus (4MHz) EC Bus Command/Byte Enable: The initiator drives as bus command in the address phase and as byte enable in the data phase. EC Line Card Detection Signal Asynchronous interrupting signal Clock of EC Synchronous Bus (8MHz) All EC bus signals except nRESET/EC_INT operates in sync with this signal. EC Cycle Frame Signal: Indicates the drive by initiator and the execution of ECI bus cycle. EC Interrupting Signal: Be asserted when slave interrupt occurs. Parity Bit of EC Synchronous Bus: Drive by applying even parity to AD[15:0] and CBE[1:0]. (4MHz) EC Parity Error: Flag indicating error status by parity flag EC Reset Input: System reset input signal EC Bus Stop Signal: Be asserted when target requests transaction halt to initiator. EC Target Ready Signal: Indicates the drive by target and the possible data transfer. Fan Alarm: It goes Low at the error of the L Power Supply’s FAN. It goes High when the FAN is normal and, Power Supply S and M, which does not carry the FAN, are used. Signal which switches the Flash Memory address of the MEX card. FSEL0 is set by hard jumper. L: The number of Flash Memory chips on the MPR is 1pc. H: The number is 2pcs. Gain: Gain adjustment signal for the RMT card (Reserve) Alerts the occurrence of the declined DC voltage to line card. H: Active L: Normal System Initialization Switch Input: L: At system initialization, H: At normal start-up Interrupt Request from ASIC: Indicates ASIC requests interrupt. Interrupt Request from SD card I/F: Indicates SD card I/F requests interrupt. Interrupt Request from USB I/F: Indicates USB I/F requests interrupt.
27
KX-TDA100BX
Signal Name LA[1] -[16] nLB LD[0] -[15] LDHW[1] -[0] nLEDALM nLEDRUN nLOS LHWCLK[0] LUHW[1] -[0] MASTER/nS MD0-2 MELODYSEL MEX_MODE[0] -[3] MOHSEL Mu/nA M/nS
Functions Address bus Lower Byte Select: Indicates Lower byte select signal of SRAM Data Bus Down Highway: Data output terminal connected to codec etc. as down data signal of local highway Alarm display L: On RUN display L: On Loss of synchronous signal: Reserve at present Highway Clock Signal (8MHz): Bit clock of local highway and selectable among 2.048 / 4.096 / 8.192MHz. Up Highway: Data input terminal connected to codec etc. as up data signal of local highway. Master/slave identification signal when SIC card (Future Option) as intersystem connection card is mounted. MPR inputs this signal and detects which the MPR will be. H: Master L: Slave Mode Control Terminal: Clock operation mode of CPU is set.MD2: L, MD1: L, MD0: H Fixed Melody IC Tune Name Select L: Ju te veux H: Minuet Information Bit to know the memory mounting capacity etc. of MEX card. Reserve at present. Switching Signal between internal hold sound source and external hold sound H: Internal L: External Switching Signal of Sound Compression Law H: Mu-Law, L: A-Law TDA100, TDA200 Identification Signal set on the back board. The MPR inputs this signal and detects which the MPR will be. H: TDA200, L: TDA100
POWTYPE[0] -[1]
nPRS_MEX nPRS_RMT nPRS_SDB nRAS3L nRAS3U nRD RD/nWR nRESOUT nRESET nRESETM RINGER RING_SYNC nRTS2 RTS_RMT RXD2 RXD_RMT SDCD SDCLK SDCMD SDDAT0-3 SDWP SHW_CLK SHW_FH TXD2 TXD_RMT nUB USB_D+ USB_DVBUS VREF nWAIT WDTCLR nWE
Press MEX: Information of MEX Card Attachment L: Attached, H: Not attached Press RMT: Information of RMT Card Attachment L: Attached, H: Not attached Press SD card: Information of SD Card Attachment L: Attached, H: Not attached Lower Byte Address Row Address Strobe: RAS signal for SDRAM Upper Byte Address Row Address Strobe: RAS signal for SDRAM Read: USB I/F, SD card I/F, ASIC, SRAM, Read signal for flash memory Read/nWrite: Read/Write signal for SDRAM Reset Out: Reset from CPU (IC101) to each card Reset: Power-on reset signal Manual Reset: Manual reset request signal for CPU Ringer Signal: Outputs square-wave of 16Hz/20Hz/25Hz as source signal of ringer Trigger Signal of Ringer Signal generation timing to each internal line card Request To Send to RS-232C connector Request to Send: Flow signal for modem Receive Data from RS-232C connector Serial Data Output Terminal: ASIC SD Card Detect Input SD Card Clock Out SD Command SD Card Data SD Card Write Protect Input Intersystem Highway Clock Signal (4MHz) Bit clock of intersystem highway and selectable between 256KHz/512KHz/1.024MHz/2.048MHz/4.096MHz. Intersystem Highway Synchronous Signal (8KHz) 8KHz frame synchronous signal of intersystem highway Transmit Data to RS-232C connector Serial Data Input Terminal: Data receiving terminal from RMT to UART in the ASIC Upper Byte Select: SRAM USB Data + USB Data Bit indicating power source is supplied to USB bus [Host (PC etc.) is connected.] H: Host connected L: Host not connected Reference Voltage for MOH Circuit Intermediate potential of +15V Wait: Hardware wait request signal for bus timing between CPU and ASIC Reserve Write Enable: WE signal of SRAM
· ASIC block Configuration: IC102 (ASIC), IC111, X103 and so on. Function: (IC102)
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KX-TDA100BX
Functions as the bus master of EC bus (synchronous bus with 16 bit width, transmission rate max.10Mbps). Communicates with ASIC mounted to each option card via EC bus and controls the option card. Controls CT bus (HW clock 8.192MHz, 8 highway, 128 timeslot) for TSW function. (A detailed description of TSW will be added later.) Controls the conference call for 3 people x ~8 parties ~ 8 people x ~3 parties. Generates single and DTMF tone in any highway and timeslot. Provides the digital gain control function by data conversion. Provides some I/O ports for CODEC channel pulse generation, modem encoding rule setting and music on hold switching and is controlled by CPU. · Memory block Configuration: IC301, IC302 (SRAM), IC303 (FlashROM), IC305, IC306 (SDRAM), IC309, IC310, IC311 (logic IC) and so on. Function: (IC301, IC302) Saves the user configuration data (such as key assign data per PT). This memory is battery backup. (IC303) Saves (some of) the system boot program and the system data. (IC305, IC306) The main program is loaded from the SD card on the system start-up. Used as the program area and the CPU work area after start-up. Makes a direct bus connection to CPU due to high-speed action (bus clock 66MHz). (IC309, IC310, IC311) Generates each memory select signal from the memory area select signal and upper address. Generates the write signal and upper/lower byte select signal. · USB block Configuration: IC204 (USB I/F), X201 (source clock: 12.000MHz), CN209 (USB connector) etc. Function: Connects to the USB host system (mainly PC) via CN209 (B type connector) as a USB device and makes data transfer by max.11Mbps. DMA function of CPU is utilized to transfer the data. · SD card block Configuration: IC205 (SD card I/F), IC209, X202(20MHz), CN211 (SD card connector) and so on. Function: Loads the main program and the system data from the SD card connected to CN211 by 10Mbps. Restores the system data periodically. · MOH/PAGING block Configuration: IC405, IC406 (CODEC), IC408, IC409 (OP Amp), IC410 (Melody IC), Q407~Q410 (transistor), JK401~JK404 (pin jack) etc. Function: The external music on hold 1 is input from JK404 and is A/D converted in IC405 via AGC (Auto Gain Control) circuit, which consists of IC408, Q407, Q409 and other CR, and then is connected to the call line HW. Likewise the external music on hold 2 is input from JK403 and is made A/D conversion in IC406 via AGC (Auto Gain Control) circuit, which consists of IC409, Q408, Q410 and other CR, and then is connected to the call line HW. The external music on hold 2 and IC410 is exclusively connected to IC406 input (by software control). The various tones & DTMF tone and the voice data generated in IC102 (ASIC) are made D/A conversion in IC405 and IC406. They are output via JK402, JK401 respectively. · Power Supply block Configuration: IC402 (DC/DC converter), IC403 (1.8V regulator), IC404 (1.9V regulator), IC411 (OP Amp), IC413 (negative power regulator), Q403, Q404, Q405, Q411, Q412 (transistor), L401, C408, C453, C454, D406~D409, BAT401, IP401, IP402 (circuit protection device) and so on. Function: +15V input is made step-down to +3.3V by DC/DC converter circuit that consists of IC402, L401, Q412 and C408, and is supplied to each IC power. Also, it monitors +3.3V output voltage and turns ON Q411 to block +15V input when over voltage is supplied. +15V input is dropped to +9.4V by Q403 and is supplied to RS232C driver with the inverted voltage (about 9.1V) generated in IC413, C453 and C454. +3.3V generated in DC/DC converter is converted to 1.8V in the back board or IC403 and Q405 via Q404 and supplied to IC101 core power, and also is converted to 1.9V in IC404 via the back-flow prevention diode D407 and supplied to IC101
29
KX-TDA100BX
clock block power. BAT401, which is a lithium battery for memory backup, is connected to the power supply of IC301, IC302 (SRAM) via D408, D409. IC411 compares BAT401 output voltage to the reference voltage (about 2.8V) and drives LED (BATALM) that indicates dropping of backup voltage. IP401 and IP402 block the line respectively when over current flows to +15V and +3.3V line.
10 BACK BOARD CIRCUIT OPERATION The back board (BB) connects signals between all cards in main unit. It also supplies power from the power supply unit (PSU) to the cards. CONNECTORS EXPLANATION (1) Power Supply Unit Connector: CN100 (2) Free Slot Connectors: CN103-CN106 (3) Option Card Slot Connector: CN107 (4) MPR Card Connector: CN112 (5) RS-232C Connector: CN113 CN113 is connected to D-Sub connector in front of the product. (6) LED Connector: CN114 CN114 is connected to LED Board on the product.
30
KX-TDA100BX
11 TROUBLESHOOTING GUIDE 11.1. INTRUDUCTION First, check which part of the system is causing the trouble. Follow the flowchart provided below, and replace each unit in turn with a working unit to identify the damaged unit.
Even when damaged unit is found out, it may mean that not the cause in the unit but the damaged cause in another unit.
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KX-TDA100BX
11.2. TYPICAL EXAMPLE The following items are typical examples when defective occur in main unit. The analysis work first shown in this chapter is done. When you do not correspond to this chapter, or when analysis is not completed, move to the following chapter.
32
KX-TDA100BX
11.3. MPR CARD 11.3.1. Startup Run indicator (LED201)
33
KX-TDA100BX
SD card access light does not flash
The battery alarm indication light turns on
34
KX-TDA100BX
ALARM indicator flashes · 1 blink and 1 interval · 2 blinks and 1 interval (1 blink is 0.5 sec. ON and 0.5 sec. OFF. 1 interval is 2 sec.)
ALARM indicator flashes · 3 blinks and 1 interval · 4 blinks and 1 interval · 5 blinks and 1 interval (1 blink is 0.5 sec. ON and 0.5 sec. OFF. 1 interval is 2 sec.)
35
KX-TDA100BX
Optional service cards cannot start up
36
KX-TDA100BX
11.3.2. Phone Call The call path cannot connect
Noise is created
37
KX-TDA100BX
11.3.3. Paging No sound (PAGING1)
No sound (PAGING2)
38
KX-TDA100BX
Noise is Heard (PAGING1)
Noise is Heard (PAGING2)
39
KX-TDA100BX
Sound is small (PAGING1)
Sound is small (PAGING2)
40
KX-TDA100BX
11.3.4. MOH Using No sound is heard (MOH1)
41
KX-TDA100BX
No sound is heard (MOH2)
42
KX-TDA100BX
Sound is small or loud (MOH1)
Sound is small or loud (MOH2)
43
KX-TDA100BX
11.3.5. USB Connection Unable to connect
44
KX-TDA100BX
Connection error occurs
45
KX-TDA100BX
11.3.6. RS-232C Connection Unable to connect
46
KX-TDA100BX
Connecting speed is slowly
47
KX-TDA100BX
11.3.7. SD Card I/F Unable to save the system data
48
KX-TDA100BX
11.3.8. Other The clock data is deleted (unset table)
49
KX-TDA100BX
11.4. ERROR LOG When a major system error occurs in the main unit (Hybrid IP-PBX), the ALARM indicator on the front of the cabinet turns on red, and the system logs the error information.
11.4.1. Error Log Display Format Example: KX-TDA Maintenance Console
Example: Station Message Detail Recording (SMDR)
Description Item 1 2 3
Date Time Level
4 5
Error Code Sub Code
Description Date of the error detection Time of the error detection Major Alarm (MJ ALM): Errors that affect the whole system operation, or result in system failure Minor Alarm (MN ALM): Errors that affect certain part of system operation Three-digit error code Five-digit sub code (XYYZZ) X: Cabinet number (1 to 4) YY: Slot number KX-TDA100: 00 to 06 (00: MPR slot; 01 to 05: Free slot; 06: Option slot) KX-TDA200: 00 to 11 (00: MPR slot; 01 to 10: Free slot; 11: Option slot) ZZ: Physical port number (01 to 16) For OPB3 card, sub slot number + port number will be displayed. Sub slot 1: 11 to 14 Sub slot 2: 21 to 24 Sub slot 3: 31 to 34
Note: When there is no parameter for slot and physical port number, YY and ZZ will be displayed as "00". 6
Error Message
Example: Sub code for MPR card = 10000 Error description (maximum 36 characters)
50
KX-TDA100BX
11.4.2. List of Errors and Solutions The tables below list the errors and their solutions. When an error whose error code is indicated with "*" occurs in the main unit (Hybrid IP-PBX), the ALARM indicator on the front of the cabinet turns on red, and the system logs the error information. When the error conditions indicated by the error codes "021", "091", "230", and "510" are recovered, the ALARM indicator will turn off automatically, indicating successful troubleshooting. When other errors are logged, the ALARM indicator will turn off only when the log for major or minor errors is cleared from the KX-TDA Maintenance Console. In other words, the ALARM indicator will turn off under the following conditions: · When the errors "021", "091", "230", and "510" are logged: when the error conditions are recovered · When other errors are logged: when the log for major or minor errors is cleared from the KX-TDA Maintenance Console Error Code 100 101 102 103 104 105 106 108
109 110
Error Message SRAM readwrite error Flash write error Flash boot check error SDRAM eadwrite error ASIC local bus register access error ASIC CT bus HW NG ASIC Local HW0 NG SD card not mounted
ASIC HDLC error ASIC DMAC error
MPR Card Initial Self Diagnosis PROBABLE CAUSE SOLUTION · MPR card malfunction · See if the MPR card is installed properly · Press the Reset Button · Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing)
· SD Memory Card not installed
· See if the SD Memory Card is installed properly
· Defective data in SD Memory Card
· Replace the SD Memory Card
· MPR card malfunction
· Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · See if the MPR card is installed properly
· MPR card malfunction
· Press the Reset Button · Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing)
Error Code 210
211
212 213 214 215 216 217
LPR (Optional Service Card with Local Processor) Initial Self Diagnosis Error Message PROBABLE CAUSE SOLUTION · Optional service card malfunction: · See if the corresponding optional service card is installed ASIC local bus register DHLC, DLC, CSIF, T1, PRI, OPB3, properly access error CTI-LINK, E&M, IP-GW · Pull out and re-insert the corresponding optional service · Optional service card malfunction: Speech path loop-back card DHLC, DLC, SLC, CSIF, LCOT, check error · Press the Reset Button T1, PRI, OPB3, CTI-LINK, E&M, IP-GW · Replace the corresponding optional service card · Optional service card malfunction: Echo cancellor access CSIF, ECHO error CSINF frame sync. error · Optional service card malfunction: DSP Boot check error T1 · Optional service card malfunction: Framer IC access error T1, PRI · Optional service card malfunction: MSG card DSP error MSG, OPB3 · Optional service card malfunction: · See if the corresponding optional service card is installed MSG card data error MSG, OPB3 properly · Erroneous recording of messages
· Pull out and re-insert the corresponding optional service card · Press the Reset Button · Re-record the messages
218
LANC register access error
· Optional service card malfunction: CTI-LINK
· Replace the corresponding optional service card · See if the corresponding optional service card is installed properly · Pull out and re-insert the corresponding optional service card · Press the Reset Button · Replace the corresponding optional service card
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KX-TDA100BX
Error Code 219
Error Message PT I/F error
PROBABLE CAUSE · Optional service card malfunction: DHLC, DLC
SOLUTION · See if the corresponding optional service card is installed properly
· Software error due to external factors
· Pull out and re-insert the corresponding optional service card
· Breaking of telephone cord/interference of noise
· Press the Reset Button · Check the wiring · Replace the corresponding optional service card
Error Code 000* 001
002
010*
Error Message MPR WDT overflow SDRAM bit error
System Start-up and On-line Operation PROBABLE CAUSE SOLUTION · MPR card malfunction · Press the Reset Button · Erroneous processing of MPR card software · Software error due to external factors · Reset Button is pressed
System Reset
AC power down
· Ignore if not frequent · Press the Reset Button
· MPR card malfunction
· Reprogram the main unit (Hybrid IP-PBX)
· Erroneous processing of MPR card software
· Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing)
· Software error due to external factors · Power supply system malfunction (e.g., power failure, power noise, trouble with UPS)
· Check the power supply system
· Power supply circuit (PSU, back board) malfunction
· See if the AC cord is connected properly · Check the AC cord · Replace the AC cord (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · Replace the PSU (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · Replace the back board (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · Check the power supply system
· AC power down
DC power down
· Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing)
· Power failure
· Bad connection or breaking of AC cord
011*
· Reprogram the main unit (Hybrid IP-PBX)
· Power supply circuit (PSU, back board) malfunction · Detection of over current (short circuit on optional service cards)
· See if the AC cord is connected properly · Check the AC cord · Replace the AC cord (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · Replace the PSU (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · Replace the back board (be sure to turn off the main unit (Hybrid IP-PBX) when replacing)
012*
MPR RAM battery low
· Battery out
014*
FAN Alarm
· MPR card malfunction · PSU-L malfunction
016
018 020*
021*
CS overload
CS superframe synchronization failure SD file access error
SD Memory disconnected
Card
· Remove the optional service cards and restart the main unit (Hybrid IP-PBX) · Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · See if anything is jammed in the fan
· Defective cable
· Replace the PSU (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · Check the cable diameter and length
· CS malfunction
· Replace the CS
· Optional service card malfunction: CSIF · Optional service card malfunction: CSIF · SD Memory Card malfunction
· Replace the corresponding optional service card
· Bad connection of SD Memory Card
· Reprogram the main unit (Hybrid IP-PBX)
· MPR card malfunction · SD Memory Card not installed · Bad connection of SD Memory Card · SD Memory Card malfunction · MPR card malfunction
52
· Replace the corresponding optional service card · Press the Reset Button
· Replace the SD Memory Card · Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing)
KX-TDA100BX
Error Code 022*
Error Message Not enough free space on SD card
PROBABLE CAUSE · Not enough memory space available to save the system data, or to upload system files from the KX-TDA Maintenance Console
SOLUTION · Delete the files whose file names start with "$" from SD Memory Card · Delete the "Pxxx" files (old program files of optional service cards) from SD Memory Card. "xxx" indicates the card type (e.g., "PDHLC" for DHLC card)
Note: 023* 024* 025* 026* 027* 028* 029* 030* 031* 032* 033* 034* 035* 036* 037* 038* 040
System data file version error System initialization file version error Card initialization file version error LCD file version error System data file checksum error System initialization file checksum error Card initialization file checksum error LCD file checksum error System data file not found System initialization file not found Card initialization file not found LCD file not found System data file access error System initialization file access error Card initialization file access error LCD file access error Calendar IC failure
090
Card limitation over
091 200
PT connection over LPR start up error (ROM NG) LPR start up error (RAM NG)
201*
202* 203* 204* 205* 206 207 230*
LPR start up error (No Program) LPR start up error (Version NG) LPR start up error (Version NG) LPR start up error (No response) LPR start up error (Card type NG) LPR start up error (Check SUM NG) Card disconnected
· Old system files on SD Memory Card · Defective system Memory Card
files
on
Do not delete the "PMPR" file; it is the program file of the MPR card. · Restore the backup files · Re-install the software
SD
· SD Memory Card not installed
· Press the Reset Button
· Bad connection of SD Memory Card
· Reprogram the main unit (Hybrid IP-PBX)
· SD Memory Card malfunction · MPR card malfunction
· Erroneous processing of calendar IC of MPR card · MPR card malfunction · Too many optional service cards installed · Too many PTs connected · Optional service card malfunction: DHLC, DLC, CSIF, T1, PRI, OPB3, CTI-LINK, E&M, IP-GW
· Optional service card malfunction: DHLC, DLC, CSIF, T1, PRI, OPB3, CTI-LINK, E&M, IP-GW
· Replace the SD Memory Card · Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing)
· Reset the system clock · Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · Reduce the number of optional service cards · Reduce the number of PTs · Pull out and re-insert the corresponding optional service card · Press the Rest Button · Replace the corresponding optional service card · Pull out and re-insert the corresponding optional service card · Press the Rest Button · Update the software of the corresponding optional service card · Replace the corresponding optional service card
· Optional service card not installed properly
· See if the corresponding optional service card is installed properly
· Optional service card malfunction
· Pull out and re-insert the corresponding optional service card
· Back board malfunction
· Press the Rest Button · Replace the corresponding optional service card · Replace the back board (be sure to turn off the main unit (Hybrid IP-PBX) when replacing)
53
KX-TDA100BX
Error Code 231 232 233 234
Error Message LPR alive check error MPR-LPR communication error LPR data check error DPLL clock failure
PROBABLE CAUSE · Optional service card malfunction: DHLC, DLC, CSIF, T1, PRI, OPB3, CTI-LINK, E&M, IP-GW
SOLUTION · See if the corresponding optional service card is installed properly
· Back board malfunction
· Pull out and re-insert the corresponding optional service card
· MPR card malfunction
· Press the Rest Button · Replace the corresponding optional service card · Replace the back board (be sure to turn off the main unit (Hybrid IP-PBX) when replacing)
235*
CS clock failure
250
T1/E1 DSP failure
251
MSG DSP failure
300*
Digital trunk out of synchronization Digital trunk RAI reception Digital trunk AIS reception Multiframe out of synchronization Frame error Data Link failure
301* 302* 303* 304* 305*
307
LAN No Carrier
310*
Port Link Failure
· Optional service card CSIF · Optional service card T1 · Optional service card MSG · Network (digital malfunction
malfunction: malfunction:
· See if the corresponding optional service card is installed properly
malfunction:
· Replace the corresponding optional service card
CO
· Check the signals from the networkd is installed properly
line)
· Check the cable
· Optional service card malfunction: PRI, T1, CTI-LINK · Wrong A/B switch setting: PRI, T1
· Data link between the CS and CSIF card failed
· Check the connection between the network and PRI card
· Data link between the network and PRI card failed · IP-GW card not connected to the LAN · Voice Mail malfunction
· Check the connection between the LAN and IP-GW card
· Ports defective on optional service card: DHLC, DLC
· See if the corresponding optional service card is installed properly
392
Clock master selected
510*
SMDR disconnect
· Clock master card has been changed to the one indicated by the sub code · RS-232C cable not connected
card
· See if the corresponding optional service card is installed properly
· Check the connection between the CS and CSIF card
· Synchronization of digital established or restored
391
· See if the A/B switch is set to A on the corresponding optional service card
· Replace the corresponding optional service card
Digital signal synchronization established Data Link established
390
· Replace the MPR card (be sure to turn off the main unit (Hybrid IP-PBX) when replacing) · Replace the corresponding optional service card
line
· Connection with PC Phone/PC Console or Voice Mail (DTMF Integration) established or restored
· Breaking of RS-232C cable · Printer (terminal malfunction
equipment)
54
· Check the Voice Mail
· Replace the corresponding optional service card · This information is logged when synchronization of digital line is established, and does not indicate an error condition that needs to be solved · This information is logged when connection with PC Phone/PC Console or Voice Mail (DTMF Integration) is established, and does not indicate an error condition that needs to be solved. However, if this is logged frequently (with "305 Data Link failure"), check the connection as it may not be done properly. · Check if the proper card is selected as the new clock master card · Check the RS-232C cable · Check the terminal equipment
KX-TDA100BX
12 DIAGNOSIS 12.1. DIAGNOSIS FEATURES Card Test and Pair Port Test is in Diagnosis Features.
12.1.1. Card Test Card Test -SUMMARY Description Diagnose all kind of Cards.
Local loop back diagnosis Card CT bus diagnosis DTMF receive test PT loop back diagnosis DSP DTMF generator/receiver diagnosis DSP DTMF receiver diagnosis Framer IC alarm signal detection diagnosis Framer IC error detection diagnosis CS-INF loop back diagnosis Super frame synchronization diagnosis Caller ID card loop back diagnosis Extension mode setting test CTI-LINK loop back diagnosis
Parallel of Diagnose item of Card Tests and every Cards DHLC DLC SLC8/L MSLC/ CS-INF LCOT T1 E1 SLC8 SLC16 X X X X X X X X X X X X X X X X X X X X X X X
BRI
PRI
OPB3
E&M
X X
X X
X X
X X X
X X
X X
X
X
X
X
CTILINK
X X X X X
12.1.1.1. Local Loop Back Diagnosis Diagnose by transmission of the data from MPR to Card, and doing the Loop back test to return the data to MPR. The point to do Loop back is different from the every cards, be able to do full diagnosis by Loop back test on the every points. Primary circuit Framer IC ST path (Analog) Framer IC (Digital) ASIC CODEC (PITS) Local HW I/F point Local TSW point
DHLC Primary circuit Framer IC ST path (Analog) Framer IC (Digital) ASIC CODEC (PITS) Local HW I/F point Local TSW point
OK NG
X
Local loop back diagnosis test Primary circuit loop back test IC Analog I/F loop back test IC Digital I/F loop back test PITS I/F test loop back Local HW I/F loop back test Local TSW loop back test
Local loop back diagnosis test of every Cards DLC SLC8/L MSLC/ CS-INF LCOT T1 SLC8 SLC16 X X X
X
X X
X X
X
X X
Diagnosis result of every test points loop back diagnosis OK loop back diagnosis NG
55
X X
E1
BRI
PRI
X X X
X
X
X X
X X
X X
OPB3
E&M
X X
X X
X
CTILINK
KX-TDA100BX
12.1.1.2. Card CT Bus Diagnosis Diagnose CT bus by Loop back test to use CT bus DHLC
DLC
X
X
Object of Card
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16 X X X X
T1
E1
BRI
PRI
OPB3
E&M
X
X
X
X
X
X
T1
E1
BRI
PRI
OPB3
E&M
CTILINK X
Diagnosis result Card CT bus diagnosis OK Card CT bus diagnosis NG
OK NG
12.1.1.3. DTMF Receive Test Diagnosis DTMF receiver DHLC Object of Card
DLC
X
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16 X X
CTILINK
X
Diagnosis result DTMF receive test OK DTMF receive test NG
OK NG
12.1.1.4. PT Loop Back Diagnosis Diagnosis PT by Loop back test DHLC
DLC
X
X
Object of Card
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16
T1
E1
BRI
PRI
OPB3
E&M
CTILINK
T1
E1
BRI
PRI
OPB3
E&M
CTILINK
X
X
PT loop back diagnosis test channel Cch port xx Dch port xx Bch port xx
C channel Port No.xx test D channel Port No. xx test B channel Port No. xx test
PT loop back diagnosis test Primary circuit ASIC (PT I/F)
Primary circuit loopback test PT I/F loopback test
OK NG
Diagnosis result PT loop back diagnosis OK PT loop back diagnosis NG
12.1.1.5. DSP DTMF Generator / Receiver Diagnosis Diagnosis DTMF generator/receiver of DSP in the Card DHLC
DLC
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16
Object of Card
Time slot Primary circuit DSP ST loop back DSP digital loop back
diagnosis point Time slot test Primary circuit loop back test DSP ST point loop back test DSP digital point loop back test
OK NG
Diagnosis result DSP DTMF generator/receiver diagnosis OK DSP DTMF generator/receiver diagnosis NG
56
KX-TDA100BX
12.1.1.6. DSP DTMF Receiver Diagnosis Diagnose DTMF receiver of DSP in the Card to use DTMF generator of DSP DHLC
DLC
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16
T1
E1
X
X
Object of Card
BRI
Time slot Primary circuit DSP ST loop back DSP digital loop back
Diagnosis point Time slot test Primary circuit loop back test DSP ST point loop back test DSP digital point loop back test
OK NG
Diagnosis result DSP DTMF generator/receiver diagnosis OK DSP DTMF generator/receiver diagnosis NG
PRI
OPB3
E&M
CTILINK
PRI
OPB3
E&M
CTILINK
OPB3
E&M
CTILINK
OPB3
E&M
CTILINK
12.1.1.7. Framer IC Alarm Signal Detection Diagnosis Diagnose the feature to detect the alarm signal of Framer IC is normal action. DHLC
DLC
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16
T1
E1
X
X
Object of Card
BRI
X
RAI AIS Primary circuit
Diagnosis point Yellow alarm signal detection test Blue alarm signal detection test Primary circuit alarm signal detection test
OK NG
Diagnosis result Framer IC alarm signal detection diagnosis OK Framer IC alarm signal detection diagnosis NG
12.1.1.8. Framer IC Error Detection Diagnosis Diagnose the feature to detect the alarm signal of Framer IC is normal action. DHLC
DLC
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16
T1
E1
X
X
Object of Card
BRI
PRI X
Bipolar violation error CRC error Framing error Primary circuit
Diagnosis point Bipolar violation error detection test CRC error detection test Framing error detection test Primary circuit error detection test
OK NG
Diagnosis result DSP DTMF generator/receiver diagnosis OK DSP DTMF generator/receiver diagnosis NG
12.1.1.9. CS-INF Loop Back Diagnosis Diagnose by Loop back test to CS-INF DHLC Object of Card
Dch port xx Bch port xx
DLC
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16 X
T1
CS-INF loop back diagnosis test channel D channel Port No. xx test B channel Port No. xx test
DNIC analog DNIC digital
Diagnosis point DNIC analog loop back test DNIC digital loop back test
OK NG
Diagnosis result CS-INF loop back diagnosis OK CS-INF loop back diagnosis NG
57
E1
BRI
PRI
KX-TDA100BX
12.1.1.10. Super Frame Synchronization Diagnosis Diagnose Super frame synchronization feature of CS-INF DHLC
DLC
Object of Card
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16 X
T1
E1
BRI
PRI
OPB3
E&M
CTILINK
BRI
PRI
OPB3
E&M
CTILINK
BRI
PRI
OPB3
E&M
CTILINK
DECT SS
Diagnosis point DECT super frame synchronization test SS super frame synchronization test
OK NG
Diagnosis result Super frame synchronization diagnosis OK Super frame synchronization diagnosis NG
12.1.1.11. Caller ID Card Loop Back Diagnosis Diagnose by Loop back test to Caller ID card (Optional Card of LCOT) DHLC
DLC
Object of Card
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16 X
T1
E1
Diagnosis result Caller ID card loop back diagnosis OK Caller ID card loop back diagnosis NG
OK NG
12.1.1.12. Extension Mode Setting Test Diagnose the normal change from outside line mode to inside line mode DHLC
DLC
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16
T1
E1
Object of Card
X Diagnosis result Extension mode setting test OK Extension mode setting test NG
OK NG
12.1.1.13. CTI-LINK Loop Back Diagnosis Diagnose by Loop back test to CS-INF DHLC
DLC
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16
T1
E1
BRI
PRI
OPB3
E&M
CTILINK X
E1
BRI
PRI
OPB3
E&M
CTILINK
Object of Card Diagnosis result CTI-LINK loop back diagnosis OK CTI-LINK loop back diagnosis NG
OK NG
12.1.2. Pair Port Test Pair Port Test -SUMMARY Description Diagnosis Pair Port Test to pair up inside line and outside line DHLC Object of Card
DLC
X
OK NG
Line current OFF (Ext->CO) Line current ON (Ext->CO) Off hook detection (CO->Ext) DTMF detection (CO->Ext) DP detection (CO->Ext) BELL detection (Ext->CO) Speech path (Ext->CO) Speech path (CO->Ext)
SLC8/L MSLC/ CS-INF LCOT SLC8 SLC16 X X X
T1
Diagnosis result Pair Port Test OK Pair Port Test NG Detail Diagnosis result There is no local current from inside line to outside line There is local current from inside line to outside line Off-hook detection from outside line to inside line DTMF transmission/detection from outside line to inside line SP transmission/detection from outside line to inside line Bell transmission/detection from inside line to outside line Call lime from inside line to outside line Call lime from outside line to inside line
58
KX-TDA100BX
12.2. DIAGNOSIS TEST 1. Click [Diagnosis] of [Utility].
59
KX-TDA100BX
2. Pair Port Test operation Select card for Test.
3. Click [Pair Port Test].
60
KX-TDA100BX
4. Click [OK].
5. Click [Cancel].
61
KX-TDA100BX
6. Card Test operation Select card for Test.
7. Click [Card Test].
62
KX-TDA100BX
8. Click [OK].
9. Click [Cancel].
63
KX-TDA100BX
13 IC DATA 13.1. IC101
Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28
Pin Name MD1 MD2 Vcc-TRC*1 XTAL2 EXTAL2 Vcc-TRC*1 NMI IRQ0/IRL0/PTH[0] IRQ1/IRL1/PTH[1] IRQ2/IRL2/PTH[2] IRQ3/IRL3/PTH[3] IRQ4/PTH[4] D31/PTB[7] D30/PTB[6] D29/PTB[5] D28/PTB[4] D27/PTB[3] D26/PTB[2] VssQ D25/PTB[1] VssQ D24/PTB[0] D23/PTA[7] D22/PTA[6] D21/PTA[5] D20/PTA[4] Vss Vss D19/PTA[3]
I/O I I O I I I I I I I I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O
Description Clock mode setting Clock mode setting Power for RTC Crystal oscillator terminal for built-in RTC Crystal oscillator terminal for built-in RTC (*6) Power for RTC Nonmaskable interrupt request External interrupt request/input port H External interrupt request/input port H External interrupt request/input port H External interrupt request/input port H External interrupt request/input port H Data bus/I/O port B Data bus/I/O port B Data bus/I/O port B Data bus/I/O port B Data bus/I/O port B Data bus/I/O port B Power for I/O (0V) Data bus/I/O port B Power for I/O (3.3V) Data bus/I/O port B Data bus/I/O port A Data bus/I/O port A Data bus/I/O port A Data bus/I/O port A Power supply (0V) Power supply (0V) Data bus/I/O port A
64
KX-TDA100BX
Pin No. 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91
Pin Name Vcc Vcc D18/PTA[2] D17/PTA[1] D16/PTA[0] VssQ D15 VccQ D14 D13 D12 D11 D10 D9 D8 D7 D6 VssQ D5 VccQ D4 D3 D2 D1 D0 A0 A1 A2 A3 VssQ A4 VssQ A5 A6 A7 A8 A9 A10 A11 A12 A13 VssQ A14 VccQ A15 A16 A17 A18 A19 A20 A21 Vss Vss A22 Vss Vss A23 VssQ A24 VssQ A25 BS/PTK[4] RD WE0/DQMLL WE1/DQMLU/WE WE2/DQMUL/ICIORD/ PTK[6]
I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O O O O O O O O O O O O O O O O O O O O O O O O O O O O O/I/O O O O O/I/O
Description Power supply (*3) Power supply (*3) Data bus/I/O port A Data bus/I/O port A Data bus/I/O port A Power for I/O (0V) Data bus Power for I/O (3.3V) Data bus Data bus Data bus Data bus Data bus Data bus Data bus Data bus Data bus Power for I/O (0V) Data bus Power for I/O (3.3V) Data bus Data bus Data bus Data bus Data bus Address bus Address bus Address bus Address bus Power for I/O (0V) Address bus Power for I/O (3.3V) Address bus Address bus Address bus Address bus Address bus Address bus Address bus Address bus Address bus Power for I/O (0V) Address bus Power for I/O (3.3V) Address bus Address bus Address bus Address bus Address bus Address bus Address bus Power supply (0V) Power supply (0V) Address bus Power supply (*3) Power supply (*3) Address bus Power for I/O (0V) Address bus Power for I/O (3.3V) Address bus Bus cycle start signal/I/O port K Read stroke D7-D0 select signal/DOM (SDRAM) D15-D8 select signal/DOM (SDRAM) D23-D16 select signal/DOM (SDRAM) /PCMCIA I/O read/I/O port K
65
KX-TDA100BX
Pin No. Pin Name 92 WE3/DQMUU/ICIOW R/PTK[7] 93 RD/WR 94 AUDSYNC/PTE[7] 95 VssQ 96 CS0/MCS[0] 97 VccQ 98 CS2/PTK[0] 99 CS3/PTK[1] 100 CS4/PTK[2] 101 CS5/PTK[3] 102 CS6/CE1B 103 CE2A/PTE[4] 104 CE2B/PTE[5] 105 CKE/PTK[5] 106 RAS3L/PTJ[0] 107 PTJ[1] 108 CASL/PTJ[2] 109 VssQ 110 CASU/PTJ[3] 111 VssQ 112 PTJ[4] 113 PTJ[5] 114 DACK0/PTD[5] 115 DACK1/PTD[7] 116 PTE[6} 117 PTE[3} 118 RAS3U/PTE[2] 119 PTE[1] 120 TDO/PTE[0] 121 BACK 122 BREQ 123 WAIT 124 RESETM 125 ADTRG/PTH[2] 126 IOIS16/PTG[7] 127 ASEMD0/PTG[6] 128 ASEBRKAK/PTG[5] 129 PTG[4]/CKIO2 130 AUDATA[3]/PTG[3] 131 AUDATA[2]/PTG[2] 132 Vss Vss 133 AUDATA[1]/PTG[1] 134 Vcc Vcc 135 AUDATA[0]/PTG[0] 136 TRST/PTF[7]/PINT[15] 137 TMS/PTF[6]/PINT[14] 138 TDI/PTF[5]/PINT[13] 139 TCK/PTF[4]/PINT[12] 140 IRS3/PTF[3]/PINT[11] 141 IRS2/PTF[2]/PINT[10] 142 IRS1/PTF[1]/PINT[9] 143 IRS0/PTF[0]/PINT[8] 144 MD0 145 Vcc-PLL1*2 146 CAP1 147 Vss-PLL1*2 148 Vss-PLL2*2 149 CAP2 150 Vcc-PLL2*2 151 AUDCK/PTH[6] 152 Vss 153 Vss Vss 154 Vcc
I/O O/I/O
Description D31-D24 select signal/DOM (SDRAM) /PCMCIA I/O write/I/O port K
O O/I/O O O/I/O O/I/O O/I/O O/I/O O O/I/O O/I/O O/I/O O/I/O I/O O/I/O O/I/O I/O I/O O/I/O O/I/O I/O I/O O/I/O I/O O/I/O O I I I I I I I/O I/O I/O/I I/O/I I/O/I I/O/I I I I I I I I I I I -
Read/Write AUD synchronization/I/O port E Power for I/O (0V) Chip select 0/mask ROM chip select 0 Power for I/O (3.3V) Chip select 2/I/O port K Chip select 3/I/O port K Chip select 4/I/O port K Chip select 5/CE1 (Area 5PCMCIA)/I/O port K Chip select 6/CE1 (Area 6PCMCIA) CE2(Area 5PCMCIA)/ I/O port K CE2(Area 6PCMCIA)/ I/O port K CK Enable (SDRAM) / I/O port K RAS for low 32M/64M bytes address (SDRAM) /I/O port J I/O port J RAS for low 32M/64M bytes address (SDRAM) /I/O port J Power for I/O (0V) RAS for low 32M bytes address (SDRAM) /I/O port J Power for I/O (3.3V) I/O port J I/O port J DMA acknowledge0/I/O port D DMA acknowledge1/I/O port D I/O port E I/O port E RAS for low 32M bytes address (SDRAM) / I/O port E I/O port E Test data output/I/O port E Bus acknowledge Bus request Hardware wait request Manual reset request Analog trigger/input port H IOIS168 (PCMCI) / I/O port G ASE mode:4/I/O port G ASE break acknowledge/I/O port G Input port G/clock output AUD data/input port G AUD data/input port G Power supply (0V) Power supply (0V) AUD data/input port G Power supply (*3) Power supply (*3) AUD data/input port G Test reset/input port F/port interruption Test mode switch/input port F/port interruption Test mode switch/input port F/port interruption Test clock/input port F/port interruption External interrupt request/input port F/port interruption External interrupt request/input port F/port interruption External interrupt request/input port F/port interruption External interrupt request/input port F/port interruption Clock mode setting Power for PLL1 (*3) External capacity terminal for PLL1 Power for PLL1 (0V) Power for PLL1 (1V) External capacity terminal for PLL2 Power for PLL2 (*3) AUD clock/input port H Power supply (0V) Power supply (0V) Power supply (0V) Power supply (*3)
66
KX-TDA100BX
Pin No. 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208
Pin Name Vcc XTAL EXTAL STATUS0/PTJ[6] STATUS0/PTJ[7] TCLK/PTH[7] IRQOUT VssQ CKIO VccQ TxD0/SCPT[0] SCK0/SCPT[1] TxD1/SCPT[2] SCK1/SCPT[3] TxD2/SCPT[4] SCK2/SCPT[5] RTS0/SCPT[6] RxD0/SCPT[0] RxD1/SCPT[2] Vss Vss RxD2/SCPT[4] Vcc Vcc CTS2/IRQ5/SCPT[7] MCS[7]/PTC[7]/PINT[7 ] MCS[6]/PTC[6]/PINT[6 ] MCS[5]/PTC[5]/PINT[5 ] MCS[4]/PTC[4]/PINT[4 ] VssQ WAKEUP/PTD[3] VccQ RESETOUT/PTD[2] MCS[3]/PTC[3]/PINT[3 ] MCS[2]/PTC[2]/PINT[2 ] MCS[1]/PTC[1]/PINT[1 ] MCS[0]/PTC[0]/PINT[0 ] DRAK0/PTD[1] DRAK1/PTD[0] DREQ0/PTD[4] DREQ1/PTD[0] RESETP CA MD3 MD4 MD5 Avss AN[0]/PTL[0] AN[1]/PTL[1] AN[2]/PTL[2] AN[3]/PTL[3] AN[4]/PTL[4] AN[5]/PTL[5] Avcc AN[6]/DA[1]/PTL[6] AN[7]/DA[0]/PTL[7] AVss
I/O O I O/I/O O/I/O I/O O I/O O I/O O I/O O I/O O/I/O I I I I O/I/O
Description Power supply (*3) Clock oscillator terminal External clock/crystal oscillator terminal Processor status Processor status Clock I/O for TMU or RTC/I/O port J Interrupt request notification Power for I/O (0V) System clock I/O Power for I/O (3.3V) Transmission data 0/output port for SCI Serial clock 0/output port for SCI Transmission data 1/output port for SCI Serial clock 1/output port for SCI Transmission data 2/output port for SCI Serial clock 2/output port for SCI
O/I/O
Mask ROM chip select/I/O port C/port interruption
O/I/O
Mask ROM chip select/I/O port C/port interruption
O/I/O
Mask ROM chip select/I/O port C/port interruption
O/I/O O/I/O O/I/O/I
Power for I/O (0V) Interrupt request notification on standby mode/I/O port D Power for I/O (3.3V) Reset output/I/O port D Mask ROM chip select/I/O port C/port interruption
O/I/O/I
Mask ROM chip select/I/O port C/port interruption
O/I/O/I
Mask ROM chip select/I/O port C/port interruption
O/I/O/I
Mask ROM chip select/I/O port C/port interruption
O/I/O O/I/O I I I I I I I I I I I I I I I -
DMA request accepting/I/O port D DMA request accepting/I/O port D DMA request/input port D DMA request/input port D Power on reset request Chip active (hardware standby request signal) Bus width setting for area 0 Bus width setting for area 1 Endian setting Power for analog (0V) AD converter input/input port L AD converter input/input port L AD converter input/input port L AD converter input/input port L AD converter input/input port L AD converter input/input port L Power for analog (3.3V) AD converter input/DA converter output/input port L AD converter input/DA converter output/input port L Power for analog (0V)
Transmission data 0/input port for SCI Transmission data 1/input port for SCI Power supply (0V) Power supply (0V) Transmission data 2/input port for SCI Power supply (*3) Power supply (*3) Transmission clear 2/external interrupt request /I/O port for SCI Mask ROM chip select/I/O port C/port interruption
67
KX-TDA100BX
14 TERMINAL GUIDE OF ICS, TRANSISTORS AND DIODES
68
KX-TDA100BX
15 HOW TO REPLACE A FLAT PACKAGE IC 15.1. PREPARATION
15.3. REMOVING SOLDER FROM BETWEEN PINS
· PbF (: Pb free) Solder · Soldering Iron
1. Add a small amount of solder to the bridged pins.
Tip Temperature of 700°F ± 20°F (370°C ± 10°C)
2. With a hot iron, use a sweeping motion along the flat part of the pin to draw the solder from between the adjacent pads.
Note: We recommend a 30 to 40 Watt soldering iron. An expert may be able to use a 60 to 80 Watt iron where someone with less experience could overheat and damage the PCB foil. · Flux Recommended Flux: Specific Gravity → 0.82. Type → RMA (lower residue, non-cleaning type) Note: See ABOUT LEAD FREE SOLDER (PbF: Pb free) (P.3).
15.2. PROCEDURE 1. Tack the flat pack IC to the PCB by temporarily soldering two diagonally opposite pins in the correct positions on the PCB.
Be certain each pin is located over the correct pad on the PCB. 2. Apply flux to all of the pins on the IC.
3. Being careful to not unsolder the tack points, slide the soldering iron along the tips of the pins while feeding enough solder to the tip so that it flows under the pins as they are heated.
69
KX-TDA100BX
16 CABINET AND ELECTRICAL PARTS LOCATION
70
KX-TDA100BX
16.1. EXTENSION BOARDS FOR SERVICING
71
KX-TDA100BX
17 ACCESSORIES AND PACKING MATERIALS
72
KX-TDA100BX
18 REPLACEMENT PARTS LIST Note:
Ref. No.
1. RTL (Retention Time Limited) The marking (RTL) indicates that the Retention Time is limited for this item. After the discontinuation of this assembly in production, the item will continue to be available for a specific period of time. The retention period of availability depends on the type of assembly and the laws governing parts and product retention. At the end of this period, the assembly will no longer be available. 2. Important safety notice Components identified by the mark indicates special characteristics important for safety. When replacing any of these components, only use specified manufacture´s parts. 3. The S mark means the part is one of some identical parts. For that reason, it may be different from the installed part. 4. ISO code (Example : ABS-94HB) of the remarks column shows quality of the material and a flame resisting grade about plastics. 5. RESISTORS & CAPACITORS Unless otherwise specified; All resistors are in ohms (Ω), k=1000Ω, M=1000kΩ All capacitors are in MICRO FARADS (µF), p=µ(µF) *Type & Wattage of Resistor
Part No.
Part Name & Description
9
PSMH1205Z
CHASSIS, LED
10 11 12
PSHD1091Z PSKV1016Z1 PSYCTDA100AL
BOLT WITH NUT COVER, RIGHT SIDE COVER, FRONT
13 14 15 16 17 18
PSMD1040Y PSMH1230Z PSMH1222Z PSMH1206Y PSMH1207Z PSKK1035Z1
FRAME, LOWER FRAME ANGLE, RS-232C ANGLE ANGLE LID
19
PSKR1001Y1
GUIDE, CABLE
20 21 22 23 24 25 26 27 28 29
PSKL1016Z1 PSMH1234Z PQHR10379Z PSGB1001Z PSQT1431Z PSYETDA100BX PSQT1990Z PSJS03P16Z PSJS09P12Z PQHD10011V
STAND ANGLE, FRONT CLAMPER BADGE LABEL, WARNING NAME PLATE LABEL, CAUTION CONNECTOR, LED CONNECTOR, RS-232C SCREW
30 31 32 33 34
PSUS1022Z XUC3VW PSMH1244Z PSUS1021Y PSHD1088Z
SPRING RETAINING RING CHASSIS, FRONT SPRING SCREW
Remarks
ABS-HB PC+ABS5V
PC+ABS5V PC+ABS5V ABS-HB
PS-HB
18.2. ACCESSORIES AND PACKING MATERIALS
18.1. CABINET AND ELECTRICAL PARTS Ref. No.
Part No.
Part Name & Description
1
PSKV1023Z1
COVER, TOP
2 3 4 5 6 7 8
PSKV1017Z1 PSMD1035Z PSMD1040Y PSMH1232Z PSMD1041Z PSMH1264Z PSHR1235Z
COVER, LEFT SIDE FRAME, SIDE FRAME, BASE FRAME,BACK BOARD COVER, BACK COVER, HOLD GUIDE RAIL
Remarks PC+ABS5V ABS-HB
PC+ABS5V
73
Ref. No. A1 A2 A3 A4 A5 A6 A7 A8 A9
Part No.
Part Name & Description
PSJA1007Z PQJP1E1Z XYN4+J18FZ PQHE17Z XTB5+20AFY PSZETDA100BX PSLB5D1 PSMD1042Z PSQX2227YCD
A10 A11 A12
PSQW2011Y PSQX2849ZCD PSJA1081Z
POWER CORD (AC CORD) PLUG SCREW MOUNTING BRACKET SCREW ACCESSORY PARTS,SD CARD INSULATOR MOUNTING BRACKET CD-ROM, INSTALLATION MANUAL (FOR USER) LEAFLET, SAFETY INFORMATI CD-ROM (FOR USER DEALER) POWER CORD (AC CORD)
P1 P2 P3 P4 P5 P6 P7 P8 P9
PSZKTDA100BX PSPD1172Z PSPD1173Z PSPN1137Y PSPD1182Z PSPD1171Y PSPD1170Y PSPD1183Z XZB05X08A03
PACKING CASE CUSHION CUSHION ACCESSORY BOX CUSHION CUSHION CUSHION CUSHION PROTECTION COVER (FOR SCREW)
P10 P11 P12
XZB10X15A04 XZB18X27A04 PSPP1070Z
P13 P14 P15
PQPP143Z PSPP1069Z XZB50X30A06
PROTECTION COVER PROTECTION COVER (FOR CD-ROM) PROTECTION COVER (FOR SD CARD) PROTECTION COVER (FOR SET) PROTECTION COVER PROTECTION COVER (FOR MOUNTING BRACKET)
Remarks
KX-TDA100BX
18.3. MPR CARD PARTS Ref. No. PCB1
Part No.
Part Name & Description
PSWP1DA100BX
MPR CARD ASS´Y (RTL)
IC101 IC102 IC103 IC107 IC110 IC111 IC120 IC121 IC123 IC124 IC125 IC126 IC127 IC131 IC132
C2DBYJ000009 C1CB00001395 C1CB00001497 C0EBE0000176 C0JBAB000407 C0JBAB000407 PQVIMC1488MR PQVIMC1489MR C0JBAZ001765 C0JBAZ001765 C0JBAC000264 C0JBAA000174 C0JBAZ001704 C0JBAB000407 C0JBAB000381
(ICS) IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC
IC201 IC204 IC205 IC207 IC208 IC209
C0JBAN000187 C1CB00001415 MN5773 C0JBAZ001765 C0JBAZ001765 C0JBAB000504
IC IC IC IC IC IC
S
IC301 IC302 IC303 IC305 IC306 IC309 IC310 IC311
C3BBKG000060 C3BBKG000060 PSWITDA100BX C3ABPJ000054 C3ABPJ000054 C0JBAN000187 C0JBAN000187 C0JBAA000174
IC IC IC(ROM) IC IC IC IC IC
S S
IC402 IC403 IC404 IC405 IC406 IC408 IC409 IC410 IC411 IC412 IC413
PQVIS8520F33 C0CBAAG00006 C0CBAAB00022 C0ZBZ0000553 C0ZBZ0000553 PQVINJM4558M PQVINJM4558M PSVISV7560 PQVINJM2903M C0CBADC00009 C0DBEDA00002
IC IC IC IC IC IC IC IC IC IC IC
Q101 Q403 Q404 Q405 Q406 Q407 Q408 Q409 Q410 Q411 Q412
B1GBCFEH0003 2SD1664Q 2SB1132R 2SB1132R UN5213 2SC4081R 2SC4081R B1ABEC000005 B1ABEC000005 B1DFDC000002 B1DHCD000018
(TRANSISTORS) TRANSISTOR(SI) TRANSISTOR(SI) TRANSISTOR(SI) TRANSISTOR(SI) TRANSISTOR(SI) TRANSISTOR(SI) TRANSISTOR(SI) TRANSISTOR(SI) TRANSISTOR(SI) TRANSISTOR(SI) TRANSISTOR(SI)
QA101 QA103
B1GHCFJJ0007 B1GHCFJJ0007
TRANSISTOR(SI) TRANSISTOR(SI)
D102 D402 D403 D405 D406 D407 D408
MA110 PFVDDGD1FP3T MA8100M MA8051 MA8043M MA1070400L MA728
(DIODES) DIODE(SI) DIODE(SI) DIODE(SI) DIODE(SI) DIODE(SI) DIODE(SI) DIODE(SI)
Ref. No. D409
Part No.
Part Name & Description
MA728
DIODE(SI)
DA401 DA402
MA143 MA143
DIODE(SI) DIODE(SI)
LED101 LED103
PSVD1VGCT PSVD1SRCT
LED LED
CN103 CN205 CN206 CN207 CN209 CN211
K1KA90B00008 K1KAC0A00037 K1KB30A00117 PSJP07A44Z K1KB04B00036 K1NA09E00022
(CONNECTORS) CONNECTOR, 90P CONNECTOR, 120P CONNECTOR, 30P CONNECTOR, 7P CONNECTOR, 4P CONNECTOR, 9P
JK401 JK402 JK403 JK404
PSJJ1D001Z PSJJ1D001Z PSJJ1D001Z PSJJ1D001Z
(JACKS) JACK JACK JACK JACK
RA101 RA102 RA103 RA104 RA105 RA106 RA107 RA108 RA109
D1HA1038A005 D1H8R0040009 D1H8R0040009 D1H8R0040009 D1H8R0040009 D1H8R0040009 D1H8R0040009 D1H8R0040009 D1H8R0040009
(COMPONENTS PARTS) RESISTOR ARRAY RESISTOR ARRAY RESISTOR ARRAY RESISTOR ARRAY RESISTOR ARRAY RESISTOR ARRAY RESISTOR ARRAY RESISTOR ARRAY RESISTOR ARRAY
RA111 RA112 RA113 RA114 RA115 RA116 RA117 RA118 RA119
EXB38VR000 EXB38VR000 EXB38VR000 EXB38VR000 EXB38VR000 EXB38VR000 D1HA1038A005 D1HA1038A005 D1HA1038A005
RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR
ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY
RA120 RA121 RA122 RA123 RA124 RA125 RA126 RA127 RA128 RA129
D1HA1038A005 D1HA1038A005 D1HA1038A005 EXB38V680JV EXB38V680JV EXB38V680JV EXB38V680JV EXB38V680JV EXRV8V470JV EXRV8V470JV
RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR
ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY
RA133 RA134 RA135 RA136 RA137
D1HA1038A005 D1HA1038A005 D1HA1038A005 EXB38V222JV EXB38V103JV
RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR
ARRAY ARRAY ARRAY ARRAY ARRAY
RA201 RA202 RA203 RA204 RA205 RA206 RA207
D1HA1048A005 EXB38V220JV EXB38V220JV D1H82204A024 D1H82204A024 D1H82204A024 D1H82204A024
RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR
ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY ARRAY
RA301 RA302 RA303 RA304 RA305
D1HA1038A005 D1HA1038A005 D1HA1038A005 D1HA1038A005 D1HA1038A005
RESISTOR RESISTOR RESISTOR RESISTOR RESISTOR
ARRAY ARRAY ARRAY ARRAY ARRAY
Remarks
Remarks
S S
S S
S S
S S
74
S
S S S S
S
KX-TDA100BX
Ref. No. RA306 RA307 RA308 RA309
Part No.
Part Name & Description
D1HA1038A005 D1HA1038A005 D1HA1038A005 D1HA1038A005
RESISTOR RESISTOR RESISTOR RESISTOR
C101 C102 C103 C104 C105 C106 C107 C108 C109
PQCUV1A225ZF ECUV1A105ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1H120JCV
(CAPACITORS) 2.2 1 0.1 0.1 0.1 0.1 0.1 0.1 12p
C110 C111 C112 C114 C116 C117 C118 C119
ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1H120JCV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV
0.1 0.1 0.1 12p 0.1 0.1 0.1 0.1
C120 C121 C122 C123 C124 C125 C126 C127 C128 C129
ECUV1C104ZFV ECUV1A105ZFV ECUV1A105ZFV ECUV1A105ZFV ECUV1C104ZFV ECUV1C104ZFV PQCUV1A225ZF PQCUV1A225ZF PQCUV1A225ZF ECUV1A105ZFV
0.1 1 1 1 0.1 0.1 2.2 2.2 2.2 1
C130 C131 C132 C133 C134 C135 C136 C137 C138 C139
ECUV1A105ZFV PQCUV1A225ZF PQCUV1A225ZF PQCUV1A225ZF PQCUV1A225ZF ECUV1H220JCV ECUV1H220JCV ECUV1H471JCV ECUV1H471JCV ECUV1C104ZFV
1 2.2 2.2 2.2 2.2 22p 22p 470p 470p 0.1
C140 C141 C142 C143 C144 C145 C146 C147 C148 C149
ECUV1A105ZFV ECUV1C104ZFV ECUV1C104ZFV PQCUV1A225ZF ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV
1 0.1 0.1 2.2 0.1 0.1 0.1 0.1 0.1 0.1
C150 C151 C156 C157 C159
ECUV1A105ZFV PQCUV1A225ZF ECUV1H102KBV ECUV1H102KBV ECUV1C104ZFV
1 2.2 0.001 0.001 0.1
C160 C161 C162 C163 C166 C167 C168
ECUV1A105ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1H102KBV
1 0.1 0.1 0.1 0.1 0.1 0.001
C170
ECUV1C104ZFV
0.1
Remarks
ARRAY ARRAY ARRAY ARRAY
75
Ref. No. C174
Part No.
Part Name & Description
ECUV1C104ZFV
0.1
C201 C202 C203 C204 C205 C206 C207 C208 C209
ECUV1H220JCV PQCUV1A225ZF ECUV1H220JCV ECUV1A105ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV PQCUV1A225ZF
22p 2.2 22p 1 0.1 0.1 0.1 0.1 2.2
C210 C211 C212 C214 C215 C216 C217 C218 C219
ECUV1A105ZFV ECUV1C104ZFV ECUV1C105ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1H150JCV ECUV1H150JCV ECUV1C104ZFV
1 0.1 1 0.1 0.1 0.1 15p 15p 0.1
C220
ECUV1A105ZFV
1
C301 C302 C303 C304 C305 C306 C307 C308
PQCUV1A225ZF PQCUV1A225ZF ECUV1A105ZFV ECUV1A105ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1H102KBV ECUV1C104ZFV
2.2 2.2 1 1 0.1 0.1 0.001 0.1
C310 C312 C314 C315 C316 C317 C318 C319
ECUV1A105ZFV PQCUV1A225ZF ECUV1C104ZFV ECUV1A105ZFV PQCUV1A225ZF ECUV1C104ZFV ECUV1A105ZFV PQCUV1A225ZF
1 2.2 0.1 1 2.2 0.1 1 2.2
C320 C321 C322
ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV
0.1 0.1 0.1
C402 C403 C404 C406 C408
F2G1E3310005 ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV F2G0J4710006
330 0.1 0.1 0.1 470
C410 C411 C412 C413 C414 C415 C416 C417 C418 C419
ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1H103KBV ECUV1C104ZFV ECUV1H103KBV PQCUV1A225ZF PSCSZ1AX106M ECUV1A105ZFV ECUV1H121JCV
0.1 0.1 0.1 0.01 0.1 0.01 2.2 10 1 120p
C420 C421 C422 C423 C424 C425 C426 C427 C428 C429
ECUV1A105ZFV ECUV1H121JCV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV
1 120p 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1
Remarks
KX-TDA100BX
Ref. No.
Part No.
Part Name & Description
C430 C431 C433 C435 C436 C437 C438 C439
ECUV1H153KBV ECUV1H153KBV ECUV1C104ZFV ECUV1A105ZFV ECUV1A105ZFV ECUV1H333KBV ECUV1H333KBV ECUV1H102KBV
0.015 0.015 0.1 1 1 0.033 0.033 0.001
C440 C441 C442 C443 C444 C445 C446 C447 C448 C449
ECUV1H102KBV ECUV1H332KBV ECUV1H105ZF ECUV1H105ZF ECUV1H332KBV ECUV1H105ZF ECUV1H105ZF ECUV1H105ZF ECUV1H105ZF ECUV1H105ZF
0.001 0.0033 1 1 0.0033 1 1 1 1 1
C450 C451 C452 C453 C454 C455
ECUV1H105ZF PQCUV1C105ZF PQCUV1C105ZF F2G1H1000010 F2G1H1000010 ERJ3GEY0R00
1 1 1 10 10 0(RESISTOR)
C465 C466 C467 C468 C469
ECUV1C104ZFV ECUV1C104ZFV ECUV1H102KBV ECUV1H102KBV ECUV1H102KBV
0.1 0.1 0.001 0.001 0.001
C470
ECUV1H102KBV
0.001
R103 R104 R105 R106 R107 R108 R109
ERJ3GEYJ332 ERJ3GEY0R00 ERJ3GEYJ471 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
(RESISTORS) 3.3k 0 470 0 0 0 0
R110 R111 R112 R113 R114 R117 R118 R119
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEYJ220
0 0 0 0 0 0 0 22
R120 R121 R122 R123 R124 R125 R126 R127 R128 R129
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ102 ERJ3GEY0R00
0 0 0 0 0 0 10k 10k 1k 0
R130 R131 R132 R133 R134 R135 R136
ERJ3GEYJ102 ERJ3GEY0R00 ERJ3GEYJ102 ERJ3GEYJ182 ERJ3GEYJ103 ERJ3GEY0R00 ERJ3GEY0R00
1k 0 1k 1.8k 10k 0 0
Remarks
76
Ref. No. R137 R138 R139
Part No.
Part Name & Description
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 10k
R140 R142 R143 R144 R145 R146 R148
ERJ3GEYJ330 ERJ3GEYJ330 ERJ3GEYJ330 ERJ3GEYJ470 ERJ3GEYJ470 ERJ3GEYJ680 ERJ3GEYJ103
33 33 33 47 47 68 10k
R150 R151 R152 R153 R155 R156 R157 R159 R164 R165 R166 R167 R168
ERJ3GEYJ332 ERJ3GEYJ332 ERJ3GEYJ332 ERJ3GEYJ332 ERJ3GEYJ182 ERJ3GEYJ182 ERJ3GEYJ182 ERJ3GEYJ680 ERJ3GEYJ470 ERJ3GEYJ470 ERJ3GEYJ332 ERJ3GEYJ332 ERJ3GEYJ332
3.3k 3.3k 3.3k 3.3k 1.8k 1.8k 1.8k 68 47 47 3.3k 3.3k 3.3k
R170 R171 R172 R173 R174 R175 R176 R178 R179
ERJ3GEYJ332 ERJ3GEYJ102 ERJ3GEYJ103 ERJ3GEYJ102 ERJ3GEYJ102 ERJ3GEYJ182 ERJ3GEYJ681 ERJ3GEYJ102 ERJ3GEYJ222
3.3k 1k 10k 1k 1k 1.8k 680 1k 2.2k
R180 R181 R182 R183 R184 R185 R186 R187 R188 R189
ERJ3GEYJ222 ERJ3GEYJ102 ERJ3GEYJ223 ERJ3GEYJ821 ERJ3GEYJ821 ERJ3GEYJ821 ERJ3GEYJ821 ERJ3GEYJ821 ERJ3GEYJ821 ERJ3GEYJ101
2.2k 1k 22k 820 820 820 820 820 820 100
R190 R191 R192 R193 R194 R195 R196 R197 R198 R199
ERJ3GEYJ101 ERJ3GEYJ220 ERJ3GEYJ220 ERJ3GEYJ220 ERJ3GEYJ220 ERJ3GEYJ101 ERJ3GEYJ101 ERJ3GEYJ101 ERJ3GEYJ472 ERJ3GEYJ102
100 22 22 22 22 100 100 100 4.7k 1k
R203 R204 R205 R206 R207 R208
ERJ3GEYJ330 ERJ3GEYJ330 ERJ3GEYJ330 ERJ3GEYJ330 ERJ3GEYJ105 ERJ3GEYJ681
33 33 33 33 1M 680
R214 R226 R227 R236 R238 R239
ERJ3GEYJ152 ERJ3GEYJ220 ERJ3GEYJ220 ERJ3GEYJ562 ERJ3GEYJ103 ERJ3GEYJ473
1.5k 22 22 5.6k 10k 47k
R240
ERJ3GEYJ473
47k
Remarks
KX-TDA100BX
Ref. No. R241 R242 R243 R244 R245 R246 R247 R248
Part No.
Part Name & Description
ERJ3GEYJ473 ERJ3GEYJ473 ERJ3GEYJ104 ERJ3GEYJ472 ERJ3GEYJ473 ERJ3GEYJ473 ERJ3GEYJ102 ERJ3GEYJ105
47k 47k 100k 4.7k 47k 47k 1k 1M
R250 R251
ERJ3GEYJ330 ERJ3GEYJ104
33 100k
R302 R303 R304 R305 R306 R307
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 10k 10k 10k 10k
R401 R403 R406 R409
ERJ3GEYJ103 ERJ3GEYJ560 ERJ3GEYJ102 ERJ3GEY0R00
R410 R411 R412 R413 R414 R415 R416 R417 R418 R419
Remarks
Ref. No. R455 R456 R457 R458 R459
ERJ3GEYJ223 ERJ3GEYJ223 ERJ3GEYJ223 ERJ3GEYJ472 ERJ3GEYJ472
22k 22k 22k 4.7k 4.7k
R460 R461 R462 R463 R464 R465 R468
ERJ3GEYJ222 ERJ3GEYJ222 ERJ3GEYJ473 ERJ3GEYJ473 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEYJ106
2.2k 2.2k 47k 47k 0 0 10M
10k 56 1k 0
R501 R502 R503 R504 R505 R506 R507 R508 R509
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ681 ERJ3GEYJ681 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 680 680 10k 10k 10k 10k 10k
ERJ3GEYJ681 ERJ3GEYJ681 ERJ3GEYJ682 ERJ3GEYJ102 ERJ3GEYJ222 ERJ3GEYJ103 ERJ3GEYJ222 ERJ3GEYJ681 ERJ3GEYJ222 ERJ3GEYJ103
680 680 6.8k 1k 2.2k 10k 2.2k 680 2.2k 10k
R510 R511 R512 R513 R514 R515 R516 R517 R518 R519
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ821
10k 10k 10k 10k 10k 10k 10k 10k 10k 820
R420 R421 R422 R423 R424 R425 R426 R427 R428 R429
ERJ3GEYJ103 ERJ3GEYJ106 ERJ3GEYJ472 ERJ3GEYJ563 ERJ3GEYJ563 ERJ3GEYJ563 ERJ3GEYJ563 ERJ3GEYJ104 ERJ3GEYJ104 ERJ3GEYJ561
10k 10M 4.7k 56k 56k 56k 56k 100k 100k 560
R520 R521 R522 R523 R525 R526 R527 R528 R529
ERJ3GEYJ102 ERJ3GEYJ222 ERJ3GEYJ102 ERJ3GEY0R00 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ220 ERJ3GEYJ220 ERJ3GEYJ103
1k 2.2k 1k 0 10k 10k 22 22 10k
R430 R431 R432 R433 R434 R435 R436 R437 R438 R439
ERJ3GEYJ561 ERJ3GEYJ561 ERJ3GEYJ561 ERJ3GEYJ104 ERJ3GEYJ473 ERJ3GEYJ333 ERJ3GEYJ333 ERJ3GEYJ223 ERJ3GEYJ223 ERJ3GEYJ223
560 560 560 100k 47k 33k 33k 22k 22k 22k
R530 R531 R532
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 10k
R549
ERJ3GEYJ103
10k
R440 R441 R442 R443 R444 R445 R446 R447 R448 R449
ERJ3GEYJ223 ERJ3GEYJ223 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ823 ERJ3GEYJ823 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ105 ERJ3GEYJ105
22k 22k 10k 10k 82k 82k 10k 10k 1M 1M
R553 R554 R555 R556 R557 R558 R559
ERJ3GEYJ680 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
68 10k 10k 10k 10k 10k 10k
R562 R563 R564 R565 R566 R567 R568 R569
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ101 ERJ3GEYJ101 ERJ3GEYJ220 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEYJ103
10k 10k 100 100 22 0 0 10k
R450 R451 R452 R453 R454
ERJ3GEYJ823 ERJ3GEYJ823 ERJ3GEYJ222 ERJ3GEYJ223 ERJ3GEYJ222
82k 82k 2.2k 22k 2.2k
J105 J109 J110 J113 J114
ERJ3GEYJ223 ERJ3GEY0R00 ERJ3GEY0R00 PQ4R18XJ000 PQ4R18XJ000
22k 0 0 0 0
77
Part No.
Part Name & Description
Remarks
KX-TDA100BX
Ref. No. J115 J116 J121 J123 J126 J129 J130 J131 J133 J155 J157 J162
Part No.
Part Name & Description
PQ4R18XJ000 PQ4R18XJ000 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
0 0 0 0 0 0 0 0 0 0 0 0
J210 J211 J212 J213 J216
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
0 0 0 0 0
J301 J303 J305 J307 J309 J311 J315 J330 J331 J411
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
0 0 0 0 0 0 0 0 0 0
DIP02
ERJ3GEY0R00
0
FIL101 FIL102 FIL103 FIL104 FIL106 FIL107 FIL108 FIL109
J0HAAH000003 J0HAAB000020 J0HAAH000003 J0HAAH000003 J0HAAB000020 J0HAAH000003 J0HAAB000020 J0HAAH000003
(FILTERS ,COILS RESISTORS) CERAMIC FILTER IC FILTER CERAMIC FILTER CERAMIC FILTER IC FILTER CERAMIC FILTER IC FILTER CERAMIC FILTER
FIL110 FIL111
J0HAAB000020 J0HAAH000003
IC FILTER CERAMIC FILTER
FIL201 FIL207 FIL208 FIL209 FIL301 FIL302 FIL303 FIL305 FIL306
J0HAAH000003 J0HAAH000003 J0HAAB000020 J0HAAH000003 J0HAAH000003 J0HAAH000003 J0HAAH000003 J0HAAH000003 J0HAAH000003
CERAMIC FILTER CERAMIC FILTER IC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER
FIL401 FIL402 FIL403 FIL404
G1BYYYC00007 G1BYYYC00007 G1BYYYC00007 G1BYYYC00007
L101 L102 L103 L105 L106 L107 L108 L109 L110 L113 L114
Remarks
Ref. No. L115 L116 L117 L118 L119
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
0 0 0 0 0
L120 L121 L122 L123 L124 L125 L126 L127 L128 L129
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
0 0 0 0 0 0 0 0 0 0
L130 L131 L132 L133 L134 L135 L136 L137 L138 L139
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
0 0 0 0 0 0 0 0 0 0
L140 L141 L142 L143 L144 L145 L146 L147 L148 L149
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 PFVF1B221SB PFVF1B221SB
0 0 0 0 0 0 0 0 CERAMIC FILTER CERAMIC FILTER
L150 L151 L152 L153 L154 L155 L156 L157 L158 L159
PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB
CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC
FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER
COIL COIL COIL COIL
L160 L161 L162 L163 L164 L165 L166 L167 L168 L169
PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB
CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC
FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER
J0JCC0000042 J0JCC0000042 J0JCC0000042 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
COIL COIL COIL 0 0 0 0 0
L170 L171 L172 L173 L174 L175 L176 L177
PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB PFVF1B221SB
CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC
FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
0 0 0
L183 L184 L185
PFVF1A471SG PFVF1A471SG PFVF1A471SG
CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER
AND
78
Part No.
Part Name & Description
Remarks
KX-TDA100BX
Ref. No. L186 L187 L189
Part No.
Part Name & Description
PFVF1A471SG PFVF1A471SG PFVF1B470SB
CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER
L190 L191 L192 L193 L194 L195 L196
PFVF1B470SB PQ4R10XJ000 PQ4R10XJ000 PQ4R10XJ000 PQ4R10XJ000 PQ4R10XJ000 PQ4R10XJ000
CERAMIC FILTER 0 0 0 0 0 0
L211 L212 L213 L214 L215 L216 L217 L218 L219
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
0 0 0 0 0 0 0 0 0
L220 L221 L222 L223 L224 L225 L226 L227 L228 L229
ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 PQ4R10XJ000 PQ4R10XJ000 PQ4R10XJ000
0 0 0 0 0 0 0 0 0 0
L301 L302 L303 L305 L306
PQ4R10XJ000 PQ4R10XJ000 PQ4R10XJ000 PQ4R10XJ000 PQ4R10XJ000
0 0 0 0 0
L401 L403 L405 L406 L407 L408 L409
G1A330G00004 J0JHC0000035 PFVF1A471SG PFVF1A471SG PFVF1A471SG PFVF1A471SG PFVF1A471SG
COIL CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC CERAMIC
L410 L411 L412 L413 L414 L415 L416 L417 L418 L419
PFVF1A471SG PFVF1A471SG PFVF1A471SG PFVF2P600SG ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00 ERJ3GEY0R00
CERAMIC CERAMIC CERAMIC CERAMIC 0 0 0 0 0 0
L420 L421
ERJ3GEY0R00 ERJ3GEY0R00
0 0
IP401 IP402
K5H502Z00003 K5H252Z00003
(FUSES) FUSE FUSE
BAT401
CR23541GUF
(BATTERY) LITHIUM BATTERY
SW101 SW103
EVQPF106K PQSS2A26Y
Remarks
Ref. No. X101 X102 X103 X201 X202
Part No.
Part Name & Description
PSVCC0025GT PSVCC0019CT H1B1635B0016 H0J120500019 H0J200500030
CRYSTAL CRYSTAL CRYSTAL CRYSTAL CRYSTAL
E1 E2 E3 E4 E5 E6 E7 E8 E9 E10 E11 E12
PQDF996Z PQHR10005Z PQUB14Z2 PSGE1005Z PSGE1006Z PSHD1088Z PSHE1122Z PSMH1208Z PSUS1020Z PSUS1021Y XUC25VWV XYN3+F6
(OTHERS) SHAFT SPACER LEVER COVER COVER SCREW SPACER CHASSIS SPRING SPRING RETAINING RING SCREW
Remarks
OSCILLATOR OSCILLATOR OSCILLATOR OSCILLATOR OSCILLATOR
PA-V0 ABS-HB ABS-HB ABS-HB
18.4. BACK/LED BOARD PARTS Ref. No. PCB2
PSWP2DA100AL
BACK/LED BOARD ASS´Y (RTL)
LED201 LED202
LN316GP LN216RP
(DIODES) LED LED
CN100 CN102 CN103 CN104 CN105 CN106 CN107 CN112 CN113 CN114 CN201
PSJS44A07Y K1KB90A00014 K1KB90A00014 K1KB90A00014 K1KB90A00014 K1KB90A00014 K1KB90A00014 K1KB90A00014 K1KA09B00077 PQJP3G38Z PQJP3D68Z
(CONNECTORS) CONNECTOR, 44P CONNECTOR, 90P CONNECTOR, 90P CONNECTOR, 90P CONNECTOR, 90P CONNECTOR, 90P CONNECTOR, 90P CONNECTOR, 90P CONNECTOR, 9P CONNECTOR, 3P CONNECTOR, 3P
C101 C106 C107 C108 C109 C110 C111
PQCUV1A225ZF ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV
(CAPACITORS) 2.2 0.1 0.1 0.1 0.1 0.1 0.1
C201 C202 C203 C204 C205 C206 C207
PQCUV1A225ZF ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV ECUV1C104ZFV
2.2 0.1 0.1 0.1 0.1 0.1 0.1
R101 R102 R105 R106 R107 R108 R109
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
(RESISTORS) 10k 10k 10k 10k 10k 10k 10k
(SWITCHES) SWITCH SWITCH
R110
ERJ3GEYJ103
10k
(CRYSTAL OSCILLATORS)
R147 R148
ERJ3GEYJ103 ERJ3GEYJ103
10k 10k
FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER
79
Part No.
Part Name & Description
Remarks
KX-TDA100BX
Ref. No.
Part No.
Part Name & Description
R151 R152 R153 R154 R155 R156 R157
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 10k 10k 10k 10k 10k
R165 R166 R167 R168 R169
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 10k 10k 10k
R170 R177 R178 R179
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 10k 10k
R180 R181 R182 R189
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 10k 10k
R190 R191 R192 R193 R199 R200 R201 R202
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 10k 10k 10k 10k 10k 10k
R343 R344 R345
ERJ3GEYJ103 ERJ3GEYJ103 ERJ3GEYJ103
10k 10k 10k
L101 L102 L103 L104 L105 L106 L107 L108 L109
PFVF1A471SG PFVF1A471SG PFVF1A471SG PFVF1A471SG PFVF1A471SG PFVF1A471SG PFVF1A471SG PFVF1A471SG PFVF1A471SG
(FILTERS) CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER
L110 L111 L112
PFVF1A471SG PFVF1A471SG PFVF1A471SG
CERAMIC FILTER CERAMIC FILTER CERAMIC FILTER
E21
PSHR1276Z
(OTHER) SPACER
Remarks
18.5. FIXTURES AND TOOLS Ref. No. EC1
Part No. PSZZ1TDA100M
EC2
PSZZ2TDA100M
Part Name & Description
Remarks
EXTENSION BOARD (FOR CPU CARD) EXTENSION BOARD (FOR LINE CARD)
Note: EC1 and EC2 are necessity for servicing.
80
KX-TDA100BX
19 FOR THE SCHEMATIC DIAGRAM Note: 1. DC voltage measurements are taken with an oscilloscope or a tester with a ground. 2. The schematic diagrams and circuit board may be modified at any time with the development of new technology.
81
A[0-25]
A[0-25] D[0-31]
LD[0-15]
+3.3V
A[25]
3
A[23]
6
IC127 2 1
DG
11
TP1015
GND
10
LD[9]
TP139
D[23]
LD[8]
TP141
D[21] +3.3V
TP143
D[19]
DG
7
D[6]
3
D[5]
4
D[4]
5
D[3]
6
B1
18 TP1000 LD[7]
A1
B2
17 TP1001 LD[6]
A2
B3
16 TP1002 LD[5]
A3
B4
15 TP1003 LD[4]
A4
B5
14 TP1004 LD[3]
A5
B6
13 TP1005 LD[2]
D[2]
7
A6
B7
12 TP1006 LD[1]
D[1]
8
A7
B8
11 TP1007 LD[0]
A8
GND
D[0]
9
29
VCC-1.8
81
VCC-1.8 134
183 VCC-IO
VCC-1.8 154
VSS-IO
33
VSS-IO
VSS-1.8
27
45
VSS-IO
VSS-1.8
79
57
VSS-IO
VSS-1.8 132
69
VSS-IO
VSS-1.8 152
83
VSS-IO
VSS-1.8 153
95
VSS-IO
VSS-1.8 173
R512 10K
R513 10K R514 10K
1
2.2u
R518 10K +3.3V
TP361
D18/PTA(2)
A12
67 TP279 L135
TP199 31
D17/PTA(1)
A11
66 TP280 L136
TP363
TP200 32
D16/PTA(0)
A10
65 TP281 L137
TP364
TP201 34
D15
A9
64 TP282 L138
TP365
TP202 36
D14
A8
63 TP283 L139
TP203 37
D13
A7
62 TP284 L140
TP367
TP204 38
D12
A6
61 TP285 L141
TP368
TP205 39
D11
A5
60 TP286 L142
TP369
D10
A4
TP207 41
D9
A3
56 TP288 L144
TP371 TP372
TP123
R11922 TP173 L115
TP124
R120 0 TP174 L116
TP125
R121 0 TP175 L117
TP126 DQMUU(nWE3) TP127 RD/nWR TP128 nRD TP129 CKE
R122 0 TP176 L118
DQMLU(nWE1) DQMUL(nWE2)
R123 0 TP177 L119 R124 0 TP178 L120 R125 0 TP179 L121
NC
R570
NC SW106 1 2
R523 0 FIL105 C455 1 3 2 NC TP130 0 DG
CKIO TP109
NC
8 Q CK 11 CLR 13 DG
4
IC107
nBACK TP180
MD0 MD1 MD2
+3.3V
X102 2 1
C136
+3.3V
J113 0
IC125 7
C170
14
J115
0.1u
J114 0
J116 0
DG
SW102 NC 1 9 2 10 3 11 4 12 5 13 6 14 7 15 8 16
TP389 A[11] TP390 A[10]
5 6 7 8
5 6 7 8
4 3 2 1
TP391
A[9]
TP392
A[8]
TP393
A[7]
TP394
A[6]
TP395
A[5]
TP396
A[4]
TP397
A[3]
TP398
A[2] A[1]
53 TP291 L147
TP374
R136 0
TP400
A[0]
TP211 46
D5
TP212 48
D4
IRQ0/#IRL0/PTH(0)
TP213 49
D3
TP214 50
D2
TP215 51
D1
IRQ3/#IRL3/PTH(3)
TP216 52
D0
IRQ4/PTH(4)
8 TP292
nIRQ_ASIC
IRQ1/#IRL1/PTH(1)
9 TP293
nIRQ_USB
IRQ2/#IRL2/PTH(2)
10 TP294
nIRQ_SDB
11 TP295 nLOS 12 TP296
nDC_ALM
NMI
7 TP297
NMI
#IRQ0UT
160 TP298
nIRQOUT
#CS2/PTK(0)
#WAKEUP/PTD(3)
182 TP299
nLOS
#CS3/PTK(1) TP220 100 #CS4/PTK(2)
TCLK/PTH(7)
159 TP300
#DREQ0/PTD(4)
191 TP301
+3.3V
R138
+3.3V
nDREQ0
#DACK1/PTD(7)
115 TP302
nDACK1
#DREQ1/PTD(6)
192 TP303
nDREQ1
#DACK0/PTD(5)
114 TP304
DRAK0/PTD(1)
189 TP305
nLEDALM
DRAK1/PTD(0)
190 TP306
nLEDRUN
RxD0/SCPT(0)
171 TP307
nDACK0
RXD0
TxD0/SCPT(0)
164 TP308
TXD0
SOK0/SCPT(1)
165 TP309
MASTER/nS
RxD1/SCPT(2)
172 TP310
RXD1
TxD1/SCPT(2)
166 TP311
SCK1/SCPT(3)
167 TP312
M/nS
RxD2/SCPT(4)
174 TP313
RXD2
TxD2/SCPT(4)
168 TP314
TXD2 nWDTST
TXD1
SCK2/SCPT(5)
169 TP315
#RTS2/SCPT(6)
170 TP316
nRTS2
#CTS2/IRQ5/SCP(7)
176 TP317
nCTS2
#CE2B/PTE(5)
104 TP318
nPRS_SDB
#IOIS16/PTG(7)
126 TP319
FSEL0
#CE2A/PTE(4)
103 TP320
nPRS_MEX
#MCS(0)/PTC(0)/PINT(0)
188 TP321
nRTS1
187 TP322
#MCS(2)/PTC(2)/PINT(2)
186 TP323
5
EXTAL2
#MCS(3)/PTC(3)/PINT(3)
185 TP324
4
XTAL2
#MCS(4)/PTC(4)/PINT(4)
180 TP325
nCTS1 DTR1 DSR1 DTR2 DSR2 DCD2 DSR_RMT
#MCS(5)/PTC(5)/PINT(5)
179 TP326
#MCS(6)/PTC(6)/PINT(6)
178 TP327
#MCS(7)/PTC(7)/PINT(7)
177 TP328
#RESETOUT/PTD(2)
184 TP329
TDO/PTE(0)
120 TP330
nRESOUT
+3.3V
TDOA
#AUDSYNC/PTE(7)
94 TP331
nAUDSYNC
#IRLS(0)/PTF(0)/PINT(8)
143 TP332
nBATT nBAT_ALM nAC_ALM nDC_ALM
#IRLS(1)/PTF(1)/PINT(9)
142 TP333
195 MD3
#IRLS(2)PTF(2)/PINT(10)
141 TP334
196 MD4
#IRLS(3)/PTF(3)PINT(11)
140
197 MD5
TCK/PTF(4)/PNT(12)
139 TP336
+3.3V
+3.3V +3.3V
TDI/PTF(5)/PINT(13)
138 TP337
TMS/PTF(6)/PINT(14)
137 TP338
#TRST/PTF(7)/PINT(15)
136 TP339
AUDATA(0)/PTG(0)
135 TP340
AUDATA(1)/PTG(1)
133 TP341
AUDATA(2)/PTG(2)
131 TP342
AUDATA(3)/PTG(3)
130 TP343
PTG(04)
129 TP344
nINIT
#ASEBRKAK/PTG(5)
128 TP345
nASEBRKAK
#ASEMD0/PTG(6)
127 TP346
nASEMDO
#ADTRG/PTH(5)
125 TP347
AUDCK/PTH(6)
151 TP348
TCK TDI TMS nTRST
DG
DG
MEX_MODE[0] MEX_MODE[1] MEX_MODE[2] MEX_MODE[3]
VBUS +3.3V
DG DG
RING_SYNC
#MCS(1)/PTC(1)/PINT(1)
TP261 203 AN(4)/PTL(4) TP262 204 AN(5)/PTL(5) TP263 206 AN(6)/DA(1)/PTL(6) TP264 207 AN(7)/DA(0)/PTL(7)
NC NC 0 NC NC NC NC NC
10K
162 CKIO
TP257 199 AN(0)/PTL(0) TP258 200 AN(1)/PTL(1) TP259 201 AN(2)/PTL(2) TP260 202 AN(3)/PTL(3)
82
TP388 A[12]
A0
TP256 158 STATUS1/PTJ(7)
DG
TP387 A[13]
D6
R128 1K
DIP00 DIP01 DIP02 DIP03 DIP04 DIP05 DIP06 DIP07
4 3 2 1
TP385 A[15] TP386 A[14]
5 6 7 8
TP210 44
R130 1K
DIPSW0 DIPSW1 DIPSW2 DIPSW3 DIPSW4 DIPSW5 DIPSW6 DIPSW7
4 3 2 1
TP384 A[16]
TP399
TP246
12
TP383 A[17]
R135 0
TP182
+3.3V
4 3 2 1
TP373
TP181
10 9 8 7 6
5 6 7 8
54 TP290 L146
DG TP254 194 CA TP255 157 STATUS0/PTJ(6)
10K RA101 1 2 3 4 5
13
A1
XTAL R131 0
9 10
nBACK
D7
22P TP183 TP247 TP265 193 #RESETP DG TP248 124 #RESETM TP249 122 #BREQ TP250 121 #BACK R1290 TP251 144 SW105 MD0 1 2 TP252 1 NC MD1 TP253 2 MD2
DG
GAIN1
11
TP382 A[18]
TP209 43
R127 10K
GNDVOUT
DG nRESET nRESETM nBREQ
+3.3V
3 4
5
R105
SUB
10K
3
22P M/R VCC
R126
2
470
TP108 1
8
A[21]
TP381 A[19]
A2
TP184
NC J108 NC J109 0 J110 0
C173
SW101
+3.3V
NMI DG nRESET IC206 NC 10 1 9 Q PR D 12 +3.3V 2 TP599
TP600
0
A[22]
TP380 A[20]
D8
C137 470P TP242 149 CAP2 C138 TP243 146 CAP1 470P TP244 156 EXTAL DG TP245 155 XTAL
C135
MA110TX
L196
D102
2
3 DG
4
R104
TP379 A[21]
55 TP289 L145
TP118 R114 0 TP168 L110
DQMLL(nWE0)
TP370
TP377 A[23]
TP208 42
nRAS3L
R118 0 TP172 L114
TP366
TP206 40
TP117 R113 0 TP167 L109
R117 0 TP171 L113
TP362
58 TP287 L143
TP116 R112 0 TP166 L108
TP122
TP357 TP358
TP198 30
nRAS3U
TP121
TP354
RA111 0
68 TP278 L134
nBS
NC J107
C172
A13
TP221 101 #CS5/#CE1A/PTK(3) TP222 102 #CS6/#CE1B TP223 87 #BS/PTK(4) TP224 118 #RAS3U/PTE(2) TP225 106 #RAS3L/PTJ(0) TP226 119 #RAS2U/PTE(1) TP227 107 #RAS2L/PTJ(1) TP228 108 #CASSLL/CASL/PTJ(2) TP229 110 #CASLH/CASU/PTJ(3) TP230 112 #CASHL/PTJ(4) TP231 113 #CASHH/PTJ(5) TP232 116 #CAS2L/PTE(6) TP233 117 #CAS2H/PTE(3) TP234 89 #WE0/DQMLL TP235 90 #WE1/DQMLU/#WE TP236 91 #WE2/DQMUL/#ICIORD/PTK(6) TP237 92 #WE3/DQMUU/#ICIOWR/PTK(7) TP238 93 RD/#WR TP239 88 #RD TP240 105 CKE/PTK(5) TP241 123 #WAIT
nWAIT
R103
nWDTST WDTCLR
DG
D19/PTA(3)
TP115 R111 0
GAIN0
FG
TP197 28
nCS6
SCLK
DG
0
TP360
nCS5
22K J106
NC QA102
TP598
DG
70 TP277 L133
TP219 99
J105
NC
R552
5
A14
TP114 R110 0
NC
IC130 TP597 4 3 R551 TP596 NC NC
C171
J123
0
J121
0
NC
DG
2
IC130 2 1
D20/PTA(4)
TP113 R109 0 TP165 L107
+3.3V
5
+3.3V
R550 NC
C132
VSS
6
C129 2.2u
S1
0.1u
SSCLK
C124 1.0u
S0
NC
16.384MHz X101
FRSEL
J124
NC
NC J122
Xout
7
TP2029
TP2028
20.1. MPR CARD
20 SCHEMATIC DIAGRAM
3
12P +3.3V
R517 10K
J158 NC
J154 NC FIL103 1 3
TP106 VDD
TP196 26
TP112 R108 0 TP164 L106
FIL102 1 3 2
NC
4
R516 10K
DG
IC103
TP359
nCS4
3.3K +3.3V
TP105
72 TP276 L132
nCS3
NC
NC
Xin
R515 10K
0V AT RESET
J102
73 TP275 L131
A15
TP218 98
nPRS_RMT
+3.3V_CPU
TP575 L102
C118 C123 0.1u C128 1.0u
J101
74 TP274 L130
A16
D21/PTA(5)
TP111 R107 0 TP163 L105
POWTYPE[0]
16.384M DG R102
TP103
A17
D22/PTA(6)
TP195 25
nCS2
nCASU
IC101
D23/PTA(7)
TP194 24
#CS0/#MCS(0)
nCASL
VSS-PLL2 148
TP102
TP193 23
TP217 96
nFAN_ALM
C105
DG
TP356
TP110 R106 0
PTE[1]
TP574 L101
VCC-PLL2 150
208 VSS-A3.3
DG
R511 10K
VSS-PLL1 147
198 VSS-A3.3
C114
R510 10K
2
DG
8
R509 10K
RESET SW
205 VCC-A3.3
12P
10K
R555 R508 10K
C117 C122 0.1u C127 1.0u
VCC-PLL1 145
TP355
75 TP273 L129
nCS0
DG
181 VSS-IO
1
TP162
POWTYPE[1]
DG
C109
R507 10K
J153 NC FIL104 1 3
TP573
VCC-1.8 175
19
161 VSS-IO
0.1u
2.2u
L195
VCC-1.8
163 VCC-IO
109 VSS-IO
+3.3V
1.0u
0.1u
VCC-IO
111 VCC-IO
4 3 2 1
76 TP272 L128
A18
DG
R506 10K
C119 0.1u C120 0.1u C125 0.1u C130 1.0u C131 2.2u C133 2.2u C134 2.2u
2.2u 1.0u 0.1u 0.1u 0.1u 0.1u 0.1u 0.1u 0.1u 0.1u C101 C102 C103 C104 C106 C107 C108 C110 C111 C112
2
TP571
TP161
D[1]
+3.3V
DG
VCC-IO
97
J152 NC FIL101 3 1
6
VSS-RTC
5 6 7 8
TP160
D[0]
10K
VCC-IO
85
TP159
D[2]
1.8V
4 3 2 1
TP158
D[3]
SW107 1 2
R502
VCC-IO
71
TP157
D[5] D[4]
C126
59
C121
VCC-IO
C116
VCC-IO
47
5 6 7 8
TP156
D[6]
2.2u
L194
35
TP155
D[7]
3 TP572 L103
4 3 2 1
TP154
D[8]
DG
+3.3V
TP153
D[9]
1.9VB
5 6 7 8
TP152
D[10]
DG
VCC-RTC
TP151
D[11]
+3.3V
4 3 2 1
TP150
D[12]
+3.3V_CPU
VCC-IO
TP149
D[13]
10
5 6 7 8
TP148
D[14]
IC124
21
TP147
D[15]
77 TP271 L127
A19
D24/PTB(0)
R132 1K
C161
0.1u
14
2
/2G
TP146
D[16]
A20
D25/PTB(1)
TP192 22
R133 1.8K
D[7]
+3.3V
IC126
19
VCC
4 3 2 1
D26/PTB(2)
TP191 20
2
TP591
20
DIR
C167
1
0.1u
3 TP589 IC126 10 8 9 IC126 4 6 5 TP590
nCS5 nCS6
TP145
D[17]
IC126
5 6 7 8
TP144
D[18] 1 2
nCS0 nCS4
4 3 2 1
TP142
D[20]
IC123
5 6 7 8
TP140
D[22]
TP190 18
4 3 2 1
TP378 A[22]
5 6 7 8
(3)
12
B8
A8
TP138
D[24]
TP353
TP351
(2)
B7
A7
9
TP137
D[25]
LD[10]
TP352
78 TP270 L126
4
AUDCK +3.3V
(1)
A6
8
TP136
D[26]
LD[11]
80 TP269 L125
A21
5
TP376 A[24]
10K
7
D[9] D[8]
LD[12]
A22
D27/PTB(3)
TP375 A[25]
10K
D[10]
TP1014
D28/PTB(4)
TP189 17
RA112 0
TP1013
D29/PTB(5)
TP188 16
RA113 0
TP1012
13
TP187 15
RA114 0
14
B6
5 6 7 8
RA115 0
B5
A5
TP135
D[27]
RA116 0
15
A4
6
4 3 2 1
TP134
D[28]
82 TP268 L124
4 3 2 1
R137 10K
B4
5
D[11]
LD[13]
A24 IC101 A23
5 6 7 8
R525
A3
D[12]
D[29]
LD[14]
TP349 TP350
10K
4
TP1011
84 TP267 L123
R558
TP1010
86 TP266 L122
10K R559
TP1009
16
A25
10K
17
B3
D30/PTB(6)
R557
B2
A2
D31/PTB(7)
TP186 14
R134
A1
3
D[13]
TP185 13
10K R556
2
D[14]
TP133
RA102 0
B1
D[15]
LD[15]
RA104 0
/2G
18
4 3 2 1
RA105 0
TP1008
19
5 6 7 8
TP132
D[30]
RA106 0
20
RA107 0
VCC
RA108 0
DIR
RA109 0
1
TP2026
3.3V
TP131
D[31]
TP2027
0.1u
IC125 8
C166
9 10
RA103 0
+3.3V
IC125 11
nRD 12 nBACK 13
KX-TDA100 MPR CARD 1/5
(4)(5) (6)
KX-TDA100BX
CN103 L178 NC
4 3 2 1
EC_AD[12] EC_AD[13] EC_AD[14] EC_AD[15]
A7
EC_nFRAME
EC_PAR
B7
EC_PAR
EC_nCBE[0]
A8
EC_nCBE[0]
EC_nCBE[1] EC_nRST
B8
EC_nCBE[1]
A9
(EC_IDSEL)
EC_AD[0] EC_AD[1] EC_AD[2] EC_AD[3] EC_AD[4] EC_AD[5] EC_AD[6] EC_AD[7]
CT_D[0] CT_D[1] CT_D[2] CT_D[3]
4 3 2 1
CT_D[4] CT_D[5] CT_D[6] CT_D[7]
10K RA135 1 2 3 4 5
EC_AD[8] EC_AD[9] EC_AD[10] EC_AD[11] EC_AD[12] EC_AD[13] EC_AD[14] EC_AD[15]
10K
3 2
TP538 TP592
1
R501
TP594 R199 C168
DG
7
TP595
NC
EC_AD[6] EC_AD[7]
A16
EC_AD[8]
EC_AD[9]
B16
EC_AD[9]
EC_AD[10]
A17
EC_AD[10]
EC_AD[11]
B17
EC_AD[11]
A18
GND
DG DG
C159 1.0u
C160
0.1u
FIL111 1 3
EC_AD[12]
2
7
DG
4 5
IC121 1
IC120 6
EC_AD[13]
EC_AD[14]
A20
EC_AD[14]
EC_AD[15]
B20
EC_AD[15]
EC_nINT
A21
EC_nINT
EC_nCDET
B21
EC_nCDET
A22
GND
IC131
R564 DG B22
6 TP2078 100
CT_D[0]
CT_D[1]
B23
CT_D[1]
CT_D[2]
A24
CT_D[2]
CT_D[3]
B24
CT_D[3]
CT_D[4]
A25
CT_D[4]
CT_D[5]
B25
CT_D[5]
CT_D[6]
A26
CT_D[6]
CT_D[7]
B26
CT_D[7]
A27
GND
B27
Reserved_B27
A28
CT_NETREF
CT_C8
B28
CT_C8
CT_FRAME
A29
CT_FRAME
+3.3V
B29
nLOS
A30
10 9
GND
B30
GND
IC120 8
R179 2.2K
+5V
3.3K
R150
3.3K 3.3K
IC121 11 13 TP550 12
1.8K
DG QA101 5 nLEDRUN 1 TP542 +3.3V 2
4
10K
TP541
QA103
+3.3V
DG
1
5
R159
TP578
68
TP579
3
R522
+3.3V
2 1 Red
TXD1
TP561 R184
820
B31
RXD1
TP562 R185
820
A32
RS1
TP563 R186
820
B32
CS1
TP564 R187
820
A33
ER1
TP565 R188
820
B33
DR1
IC131
TP566
R189100 A34
nLDHW[1]
TP2077
R190100 B34
nLUHW[1]
L183
LEDRUN A35
LEDRUN
L184
LEDALM B35
LEDALM
3
R180
R519
2.2K
TP586 M/nS
680 nFAN_ALM
R521
820 1.0K R520
2.2K
L185
C B
RINGER
IC110
Q101 HALT
E DG
DG
83
TP557
DG
DG
3.3V_BB
IC111
5
IC131 DG
RING_SYNC 13 IC110 1 2
+3.3V 6
13
TP584
IC110 L186 12 11 10 TP583 L187 TP556
IC111 12 13
IC111
IC110
TP559
nDC_ALM
4
3
nAC_ALM
6
5 TP570
9
IC110 POWTYPE[0] POWTYPE[1]
DG DG
RA136 1 8 2 7 3 6 4 5
A36
nBATT
B36
DCD1
A37
nFAN_ALM
B37
M/nS
A38
(+30V)
B38
(+30V)
A39
RINGER
B39
RING_SYNC
A40
nHALT
B40
RING_SIN
A41
GND
B41
+3.3V
A42
DC_ALM
B42
AC_ALM
A43
POWTYPE[0]
B43
POWTYPE[1]
A44
(DIAG_R)
B44
(DIAG_T)
A45
GND
B45
(RINGER_AC)
5 6 7 8
TP539
12
A31
2
nBATT
DG +3.3V
LED103 TP580R176
nBAT_ALM
820
+3.3V
47 TP544 1 2 Green
4
TP560 R183
IC131
LED101
R164
2
nPRS_SDB
LDHW[1] 1 LUHW[1] 4
10K
R148
nLEDALM 3
R165 47
22
DG
IC121 8 10
+5V TP549 9
R157
DCD2 IC120
1.8K
R168
3.3K
R153
DG
11
R170
R175
DSR2
nLOS
R191
22K
DTR2
0
CT_NETREF
DG
DG
1.0K
IC121 4
TP548 5
DG
R568
R182
3.3K
1.8K
6
nSHW_FH
A23
+3.3V
R156
nCTS2
EC_AD[12]
B19
MASTER/nS
3.3K
R167
2
nSHW_CLK
EC_AD[13]
+5V
+3.3V
IC132 5 1
R565 DG B18 8 TP2079 100 A19
9
SHW_FH 5 CT_D[0]
TP547 2
nRTS2
R152
2.2u
3.3K
R166
1.8K
3
IC131
SHW_CLK
DG
C151
0.1u 1.0u
0.1u
3.3K
R151
L193
R155
RXD2
FIL109 1 3
C149 C150
C146 C147
C148
0.1u 0.1u
0.1u
0.1u 0.1u
14
X103 1 VCC N.C
TP567
IC120 2 3
3
7
DG
+3.3V
+5V
NC
14
IC110
GND
EC_AD[8]
X104 4 1 VCC NC 5 10 NC NC 6 9 NC NC 8 NC 7 NC 2 3 OUT GND NC
J136
+3.3V
GND
B14
B15
+3.3V
13 12
EC_AD[5]
A14
EC_AD[7]
TXD2
TP577
B13
1K
0
DG
EC_AD[4]
EC_AD[5]
N.C.
2 OUTGND 16.384MHz
L192
2
A13
A15
3
1K 1000p TP593
0
TP576
EC_AD[3]
EC_AD[4]
EC_AD[6]
IC111
10K
+3.3V
B12
1K R174
16.384M
C169 J135 NC FIL107 1 3
EC_AD[2]
EC_AD[3]
RA137 10K
FIL110
A12
DG
RS232C DRIVER /RECEIVER
IC111
4
EC_AD[1]
EC_AD[2]
L191
J161 NC 8 J160 NC
4
IC111
1 2
B11
4 3 2 1
R505
10K
R563
4
J163 NC
IC110
EC_AD[0]
EC_AD[1]
R173
J134
J162 0
GND
A11
N.C. R163 DG
EC_nINT EC_nCDET
GND
EC_AD[0]
+3.3V
R162
IC130 5 6 14
+3.3V 10 9 8 7 6
EC_nRST
B10 DG
+3.3V
9
R197 B9 100 A10
11
IC126
CT_NETREF 47 CT_C8 68CT_FRAME
NC
3
13 12
nRESOUT
R181
RA128 47
4 3 2 1
R145 R146
N.C. 47 J131 N.C. 112 0 TP449 GND 1 GND 10 GND 20 GND 29 GND 48 GND 54 DG GND 59 GND 61 GND 66 GND 77 GND 82 GND 88 GND 93 GND 99 GND 104 GND 110 GND 113 GND 124 GND 133 GND 143 GND 152 GND 162 GND 171 GND 180 GND 181 GND 190 GND 202 GND 211 GND 221 GND 230 GND 240 +3.3V 10K RA121 TP450 1 10 P4[7] 12 2 9 TP451 3 8 P4[6] 13 TP452 4 7 P4[5] 14 5 6 TP453 15 P4[4] TP454 P4[3] 16 TP455 P4[2] 17 TP456 P4[1] 18 TP457 P4[0] 19 +3.3V 10K RA122 TP458 1 10 P5[7] 21 2 9 TP459 3 8 P5[6] 22 TP460 4 7 P5[5] 23 TP2033 5 6 TP461 24 P5[4] TP462 P5[3] 25 TP463 P5[2] 26 TP464 P5[1] 27 TP465 P5[0] 28
IC131
+3.3V 10 9 8 7 6
1 2 3 4 5
8
IC130 9 8 NC IC130 11 10 IC130 13 12
10K RA134
1K
DG
7
680
EC_nPERR
EC_nFRAME
R171 +3.3V
R158 DG N.C.
C156 1000P
RA123 68
680 R504
10K
EC_nTRDY
B6
+3.3V
14
GND
EC_nPERR
IC111 10 11
IC130 NC
GND
B5
100 EC_nINT 100 EC_nCDET
RA129 47
5 6 7 8
R554
RA124 68 RA127 68
RA125 68 RA126 68
EC_AD[8] EC_AD[9] EC_AD[10] EC_AD[11]
DG
+3.3V
EC_nSTOP
A5
C157 1000P
P3[7]/TXB[7] P3[6]/TXB[6] P3[5]/TXB[5] P3[4]/TXB[4] P3[3]/TXB[3] P3[2]/TXB[2] P3[1]/TXB[1] P3[0]/TXB[0]
B4
EC_nRST
R178
2 3 4 5 6 7 8 9
TP537
J129 0
P2[7] P2[6] P2[5] P2[4] P2[3] P2[2] P2[1] P2[0]
4 3 2 1
DG
TP448
EC_CLK
EC_nSTOP
A6
R524 DG
TP2032 AVDD 31 J128 AVDD 42 NC 11 VDD VDD 30 VDD 49 DG VDD 60 VDD 67 VDD 83 VDD 94 VDD 105 VDD 114 VDD 134 +3.3V_ASIC VDD 153 VDD 172 VDD 191 VDD 212 VDD 231
A4
EC_nTRDY
NC
0 J125 TP536 J159 NC NC +3.3V
PLLGND 43
POWERGND
EC_CLK
6
TP440 TP441 TP442 TP443 TP444 TP445 TP446 TP447
PLLVDD 44
POWERGND
B3
EC_nFRAME
1.0K
232 233 234 235 236 237 238 239
EC_AD[4] EC_AD[5] EC_AD[6] EC_AD[7]
5
TP432 TP433 TP434 TP435 TP436 TP437 TP438 TP439
P1[7]/TXA[7] P1[6]/TXA[6] P1[5]/TXA[5] P1[4]/TXA[4] P1[3]/TXA[3] P1[2]/TXA[2] P1[1]/TXA[1] P1[0]/TXA[0]
4 3 2 1
SD ACCESS LED
222 223 224 225 226 227 228 229
DG TP2031
+15V
A3
DG
J155
TESTMODE0 73 TESTMODE1 74
(+40V)
B2
+15VIN
+15VIN
P.G
BATTERT ALARM LED
+3.3V RA120 SW103 2 10K 10 1 1 2 9 3 TP404 3 8 4 7 5 6 DG System-Initialize_SW
R139 10K
(1)
+3.3V
P0[7] P0[6] P0[5] P0[4] P0[3] P0[2] P0[1] P0[0]
EC_AD[0] EC_AD[1] EC_AD[2] EC_AD[3]
0
+3.3V RA119 10K 10 1 2 9 3 8 4 7 5 6
TP424 TP425 TP426 TP427 TP428 TP429 TP430 TP431
DG
TMS nTRST
TP2030
(+15VPT)
A2
DG
TP585
TP466
(+15VPT)
B1 +3.3V 10 9 8 7 6
EC_PAR EC_nCBE[0] EC_nCBE[1]
C466
+3.3V RA118 10K 10 1 2 9 3 8 4 7 5 6
TP416 TP417 TP418 TP419 TP420 TP421 TP422 TP423
DG 213 214 215 216 217 218 219 220
5 6 7 8
J133
NC +3.3V RA117 10K 10 1 2 9 3 8 4 7 5 6
RX[7] RX[6] RX[5] RX[4] RX[3] RX[2] RX[1] RX[0]
5 6 7 8
TCK TDOA
VREF_PLUS 40 VREF_MINUS 41
PIO[7]/CHP[7] PIO[6]/CHP[6] PIO[5]/CHP[5] PIO[4]/CHP[4] PIO[3]/CHP[3] PIO[2]/CHP[2] PIO[1]/CHP[1] PIO[0]/CHP[0]
5 6 7 8
0.1u
3
DG
10K RA133
1 2 3 4 5
NC
RINGER
68 69 70 71 72
PLLATI 46 PLLCLK 45
5 6 7 8
4 3 2 1
+3.3V
0.1u C139 1.0u C140 2.2u C143
10K
NC
R560 R561
CKIO
TP533 TP534 TP535
RINGER 50
C_CS[3] C_CS[2] C_CS[1] C_CS[0] DCLK DOUT DIN CP[0]
32 33 34 35 36 37 38 39
+3.3V
L176 L177
TCK TDI TDO TMS TRST
5 6 7 8
J132 NC
DG
TP502 TP503
0.1u
J120 NC
CT_NETREF 53 CT_C8 52 CT_FRAME 51
C145
(2)
R549 10K
TP525 TP526 TP527 TP528 TP529 TP530 TP531 TP532
C142 C144
R529 R530 R531 R532
L168 L169 L170 L171 L172 L173 L174 L175
CT_D[0] CT_D[1] CT_D[2] CT_D[3] CT_D[4] CT_D[5] CT_D[6] CT_D[7]
SDI SDO RTS CTS
TP408 203 TP409 204 TP410 205 TP2037 TP411 206 L189 R527 22 TP412 207 L190 R528 22 TP413 208 TP2038 TP402 209 J156 210 NC TP414 HALT 194 HALT 195 Mu/nA 196 MOHSEL 197 MELODYSEL TP415 198 WDTCLR J157 TP2074 199 CH_SEL[2] 0 200 CH_SEL[1] 201 CH_SEL[0]
TP494 TP495 TP496 TP497 TP498 TP499 TP500 TP501
C141
10K 10K 10K 10K
C_CS[0] DCLK_RMT TP2039 DOUT_RMT TP2040 DIN_RMT
+3.3V
115 116 117 118
65 64 63 62 58 57 56 55
C163
DG
DG
EC_PAR EC_nCBE[0] EC_nCBE[1] EC_nRST
R195 R196
TP492 TP493
0.1u
R198 4.7K
TP335 1 2 3
(3)
+3.3V
TXD_RMT RXD_RMT RTS_RMT CTS_RMT
C175
10K DG N.C. EC_nSTOP EC_nTRDY EC_nPERR
J130 0
NC
SW104
C174
Master/Slave_SW
0 IC132 LUHW[1] LUHW[0] LDHW[1] LDHW[0] R140 TP401FIL106 1 3 33 2TP403
0.1u
LHWCLK[0]
R567 4
TP509 TP510 TP511 TP512 TP513 TP514 TP515 TP516 TP517 TP518 TP519 TP520 TP521 TP522 TP523 TP524
L152 L153 L154 L155 L156 L157 L158 L159 L160 L161 L162 L163 L164 L165 L166 L167
EC_INT 76 EC_CDET 75
C465
CKIO 2
EC_CLK R161 R172
47 EC_CLK 22 EC_nSTOP 22 EC_nTRDY 22 EC_nPERR 68EC_nFRAME
R192 R193 R194 R553 4 3 2 1
+3.3V
0.1u
10K
R569
R526
2 1 11
IC131 10
IC125 4 5 22
R566 6
nIRQ_ASIC nBREQ nBACK nCS4 nCS5 nRD DQMLU(nWE1) DQMLL(nWE0) nWAIT nRESET
5 6 7 8
33
LUHW[1] LUHW[0] LDHW[1] LDHW[0] HW_CLK[1] HW_CLK[0] HW_FH L_NETREF SHW_CLK SHW_FH
+3.3V
+3.3V
TP476 TP477 TP478 TP479 TP480 TP481 TP482 TP483 TP484 TP485 TP486 TP487 TP488 TP489 TP490 TP491
R143
187 185 188 186 TP405 183 182 TP406 184 DG 189 TP407 SHW_CLKR142 192 33 SHW_FH 193
+3.3V
nCS5
3
IC125
nBS
98 97 96 95 92 91 90 89 87 86 85 84 81 80 79 78
TP505 TP506 TP507 TP508
L148 L149 L150 L151
10K
nEXTINT[2] nEXTINT[1] nEXTINT[0] nIRQ nBREQ nBACK nCS_SRAM nCS_MES nRD nWR[1] nWR[0] nBUSY nRESET nBS CLKIO
DG
EC_AD[0] EC_AD[1] EC_AD[2] EC_AD[3] EC_AD[4] EC_AD[5] EC_AD[6] EC_AD[7] EC_AD[8] EC_AD[9] EC_AD[10] EC_AD[11] EC_AD[12] EC_AD[13] EC_AD[14] EC_AD[15]
TP504 R144
DG
NC
163 164 165 166 167 168 169 170 173 174 175 176 177 178 179
7
TP467 TP468 TP469 TP470 TP471 TP472 TP473 TP474 TP475
J126 0
DATA[15] DATA[14] DATA[13] DATA[12] DATA[11] DATA[10] DATA[9] DATA[8] DATA[7] DATA[6] DATA[5] DATA[4] DATA[3] DATA[2] DATA[1] DATA[0]
LD[15] LD[14] LD[13] LD[12] LD[11] LD[10] LD[9] LD[8] LD[7] LD[6] LD[5] LD[4] LD[3] LD[2] LD[1] LD[0]
C162
IC127
0.1u
14
111 109 108 107 106 103 102 101 100
PLLCLK R562
144 145 146 147 148 149 150 151 154 155 156 157 158 159 160 161
+3.3V
EC_CLK EC_STOP EC_TRDY EC_PERR EC_FRAME EC_PAR EC_BE[0] EC_BE[1] EC_nRST
J127
132 135 136 137 138 139 140 141 142
ADD[20] ADD[19] ADD[18] ADD[17] ADD[16] ADD[15] ADD[14] ADD[13] ADD[12] ADD[11] ADD[10] ADD[9] ADD[8] ADD[7] ADD[6] ADD[5] ADD[4] ADD[3] ADD[2] ADD[1] ADD[0]
R503
FIL108 1 3 2
IC102 119 120 121 122 123 125 126 127 128 129 130 131
A[20] A[19] A[18] A[17] A[16] A[15] A[14] A[13] A[12] A[11] A[10] A[9] A[8] A[7] A[6] A[5] A[4] A[3] A[2] A[1] A[0]
A1
+3.3V_ASIC +3.3V +3.3V
2.2K DG
KX-TDA100 MPR CARD 2/5
(4)(5) (6)
KX-TDA100BX
5 6 7 8
5 6 7 8
5 6 7 8
5 6 7 8
4 3 2 1
4 3 2 1
4 3 2 1
4 3 2 1
19 DG 2
3
4
5
6
7
8
9
TP2047 L217 TP2007
TP2046 L216 TP2006
TP2045 L215 TP2005
TP2044 L214 TP2004
TP2043 L213 TP2003
TP2042 L212 TP2002
TP2041 L211 TP2001
1
9
8
7
6
5
4
3
TP2008 TP2048 L218
TP2049 L219 TP2009
TP2050 L220 TP2010
TP2051 L221 TP2011
TP2052 L222 TP2012
TP2053 L223 TP2013
TP2054 L224 TP2014
TP2055 L225 TP2015
TP2016 TP2056 L226
C_CS[0],DCLK_RMT,DIN_RMT,DOUT_RMT
LA[1] TP2057
LA[2] TP2058
LA[3] TP2059
LA[4] TP2060
LA[5] TP2061
LA[6] TP2062
LA[7] TP2063
LA[8] TP2064
LA[9] TP2065
LA[10]TP2066
LA[11]TP2067
LA[12]TP2068
LA[13]TP2069
LA[14]TP2070
LA[15]TP2071
LA[16]TP2072
19 DG 2
B2
B2
A8
A7
A6
A5
A4
A3
IC207
GND
B8
B7
B6
B5
B4
B3
A1
A2
B1
VCC
IC208
GND
B8
B7
B6
B5
B4
/2G
DIR
A8
A7
A6
A5
A4
A3
B3
A1
A2
B1
VCC
/2G
DIR
20
DG +3.3V
A[9]
A[10]
A[11]
A[12]
A[13]
A[14]
A[15]
A[16]
10
11
12
13
14
15
DG
A[1]
A[2]
A[3]
A[4]
A[5]
A[6]
A[7]
17
16
A[8]
18
20
10
11
12
13
14
15
16
17
18
0.1u 0.1u
1
C216 C215
8 10
15 16 17 18 19 20 21 22
D[21] D[19] D[17]
53 54 55 56 57 58
LD[5] LD[3] LD[1]
65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86
A[19] A[17] A[15] A[13] A[11] A[9] A[7] A[5] A[3] A[1]
A[0]
A[2]
A[4]
A[6]
A[8]
A[10]
A[12]
A[14]
A[16]
A[18]
A[20]
A[22]
A[24]
LD[0]
LD[2]
LD[4]
LD[6]
LD[8]
LD[10]
LD[12]
LD[14]
RD/nWR nCS0
91 92 93 94 95 96
nRD
nPRS_MEX FSEL0
101 102 103 104 105 106 107 108 109 110
nCS6 nRAS3U nCASU nRESET
DG
CN205 DG
TP696
CKIO
119 120
117 118
115 116
+3.3V
MEX_MODE[3]
113 114
MEX_MODE[2] TP695
MEX_MODE[1]
111 112
MEX_MODE[0]
CKE
nCASL
nRAS3L
99 100
nCS4
nCS5
97 98
nCS2
DQMUU(nWE3)
89 90
DQMUL(nWE2)
DG DQMLU(nWE1)
DG
DG
D[0]
D[2]
D[4]
D[6]
D[8]
D[10]
D[12]
DG D[14]
D[16]
D[18]
D[20]
D[22]
D[24]
D[26]
D[28]
D[30]
DG
DG DQMLL(nWE0)
87 88
63 64
A[21]
61 62
A[23]
A[25]
51 52
LD[7]
59 60
49 50
LD[9]
DG
47 48
45 46
43 44
41 42
39 40
37 38
35 36
33 34
31 32
LD[11]
LD[13]
DG LD[15]
D[1]
D[3]
D[5]
D[7]
D[9]
29 30
27 28
D[13] D[11]
25 26
DG D[15]
23 24
13 14
D[23]
11 12
9
7
+3.3VB
6 TP694
4
2
D[25]
D[27]
D[29]
D[31]
1 +3.3VB 3 DG +3.3V 5
nCS2
nCS3
TP1020
nCS6
C217
R203
R205
J214
J213
TP2073
DG
LHWCLK[0] +3.3V
Mu/nA
GAIN1
CH_SEL[2]
RTS_RMT
RXD_RMT
LDHW[0]
33 nRTS1 R206 33
nCTS1
33 RXD1 R204 33
TXD1
X202
1M
R248
20.000MHz
DG
5
4
6
3
G2B
G2A 7
9
10
11
12
TP610
TP609
TP608
TP607
TP606
13 nCS_SDB1
4
+3.3V +3.3V
TP1021
IC209
TP657
DG
+3.3V
DG
+3.3V
DG
TP693
DG
TP690
TP689
TP604
TP603
TP602
TP601
DG
DG
5 6 7 8
20 32 37
22 30 36
21 2
25
24
SDCD SDCMD SDCLK SDWP
40
DG
+3.3V
27 SDCD 33 SDCMD 31 SDCLK 26 SDWP
6 VSS
3 VSS
6
5 LUHW[0]
CN206
29 30
27 28
25 26
23 24
21 22
19 20
DG
nPRS_RMT
nRESET
GAIN0
DSR_RMT
17 18
DG
13 14 15 16
TP692 CTS_RMT
TP691 TXD_RMT
DG
+3.3V
11 12
10
8
4
3
7 RTS
6 CTS
5 N.C
4 GND
3 VDD
6
IC209
IC209
IC209
9
DG
11
13
5
7
14
IC209
TP1024
REMOTE CARD CONNECTOR
+5VRMT
8
10
12
IC209 J224
DG
2
FIL209 1 3
+3.3V
SG3 SG
SG2 SG
DG
C212
4 VDD
+3.3V
33
R209
TP680
TP679
E
C
DG
2
NC FIL201 3 1
DG J226
X201
TP614
TP613 DG
R208 680
DG
12
13
11
+3.3V
DG
Q201
DG
4
5
3
12
TP616
TP612
12.000MHz
1M
9
4
7
1
15
TP615
+3.3V
USBCLK
TP681
B
+3.3V
R207
8
LUHW[1]
SHW_FH
SHW_CLK
LDHW[1]
MASTER/nS
SHW_FH
TP611
LA[1] LA[2] LA[3] LA[4] LA[5] LA[6] LA[7]
CN211 TP697 7 DAT0 TP698 8 DAT1 TP699 9 DAT2 TP700 1 DAT3 TP1016 2 CMD 4 TP1017 5 CLK 3 2 TP1018 11 WR_PROTECT 1 TP2017 12 SDCD +3.3V 10 Common
4 3 2 1
LD[0] LD[1] LD[2] LD[3] LD[4] LD[5] LD[6] LD[7] LD[8] LD[9] LD[10] LD[11] LD[12] LD[13] LD[14] LD[15]
29 SDDAT0 28 SDDAT1 35 SDDAT2 34 SDDAT3
VSSXSTANDBY 38 VSSTESTMODE 39 VSS MINTESTY
VDD VDD VDD
MCLK SDDAT0 XRST SDDAT1 SDDAT2 SDDAT3
XMNIRQ2
18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3
2 RX
2
9
DG
TP2025
TP2024
TP2023
TP2022
TP2021
TP2020
TP2019
TP2018
5 6 7 8
TP1019
13 12
IC311
SDCLK
11
MND0 MND1 MND2 MND3 MND4 MND5 MND6 MND7 MND8 XMNCS MND9 XMNRE MND10 XMNWEMND11 XMNDK MND12 MND13 MND14 XMNIRQMND15
IC205 MNA1 MNA2 MNA3 MNA4 MNA5 MNA6 MNA7
SD CARD CONNECTOR
SDCD
2
47 46 45 44 43 42 41
nCS_SDB0 19 48 1 23 TP2080
LA[1] LA[2] LA[3] LA[4] LA[5] LA[6] LA[7]
SG1 SG
1
7
SDCLK
SDCMD
SDDAT3
SDDAT2
SDDAT1
SDWP
J222 FIL207 3 1
DG
+3.3V
TP2036
+3.3V+3.3V+3.3V +3.3V+3.3V
SDDAT0
7
TP2000
TP20350
J216
nRESET
nIRQ_SDB
nRD nWE
CKIO J217 3 CK Q 6 CLR NC +3.3V 1 J215
1 TX
CN207
NC R250 3 TP1023 33 FIL208
DG
1 2
TP605
14 nCS_SDB0 TP658
15 nCS_USB
TP1022 R249
Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0
IC201
G1
C
B
IC209 TP2034 1 2 3
+3.3V
A[25]
R247
RA207 22
RA206 22
RA205 22
RA204 22
15p
1k 15p R245
DG
A
R239 C213
2
47K R241
1
47K R240 NC
A[24]
4.7K R246 C_CS[0]
L227
NC NC
+3.3V
0.1u
4.7K DIN_RMT
47K R244 R243 100K
C210 0.1u
J227 DG 2.2u C209 1.0u 47K R242 R251
47K 100K
C211 RA203 22 RA202 22 C219 1.0u
C218
J209 J210
C220
A[23]
DOUT_RMT
1u
IC2064 NC 2 D PR Q 5
L228
R237
+3.3V
DCLK_RMT
C201 DG 22P
22k 22P
3.3V
2.2u
LA[1-16]
L229
TP678
IC201
DO4+
DO3-
DO3+
DO2EN1/2
DO2+
RI2+
RI1-
+3.3V
TP618
TP617
TP684
6
TP683
1
R215
DG
R216
220
TP682 220
2
13
14
11
10
5
6
3
2
RI4+
RI3-
TP687
44 43 42 41 38 37 36 35
TP620
8
16
+3.3V
DG
LD[0] LD[1] LD[2] LD[3] LD[4] LD[5] LD[6] LD[7]
NC L203
L209 TP649
0 NC
1 2 3 4 5 DG
8
16
DG
FIL204
10 9 8 7 6
FG
TP670
TP669
14
13
12
11
10
9
8
7
CN210 TP663 1 TP664 2 TP665 3 TP666 4 TP667 5 TP668 6
IC206
7
14
DG
5.6K
R236
+3.3V
DG
4 GND
CN209 TP660 1 VBUS TP661 2 USB_DTP662 3 USB_D+
USB CONNECTOR
100K RA201
J208
4 3
1 2 FIL206
J207
J206
TP648R233 TP656 4 3
USB_D- DG 0 1 2 FIL202 NC TP634 4 3 USB_D+ J212 0
J205
J204
0 TP655 1 2 FIL205
NC TP647R232
0 NC
TP642 L210 TP650
J211
J203
0 TP653 1 2 TP646R231 TP654 4 3
TP641
NC L208
TP640
TP639
NC L207
TP638
NC L206
NC NC L205 TP645R230 TP637
+3.3V
J201
0 TP651 1 2 FIL203
NC TP643R228
NC L204 TP644R229 TP652 4 3 J202 0 NC
TP636
TP635
TP633
IC203 NC
22
22 R227
R226
180
KX-TDA100 MPR CARD 3/5
DG
8
16
+3.3V
1.5K
R214
2 TP629 1 TP630
IC202 NC
-D +D
VBUS
nRESET -RST 11
8 nCS_USB 9 nRD 10 DQMLL(nWE0)
nDREQ0 nDACK0 nDREQ1 nDACK1 nIRQ_USB
TP688
5 GND 39 GND
3 VCC 40 VCC
DG
R224
220
R223 220 R225
34 33 25 18 12
-CS -RD 6 XIN -WR 7 XOUT -DREQ0 DACK0 4 TEST1 -DREQ1 17 DACK1 TEST2 -INTR
+3.3V
TP621 TP622 TP623 TP624 TP625 TP626 TP627 TP628
R218
22
22
R217
DG TP619
AD0 AD1 AD2 AD3 AD4 AD5 AD6 AD7
IC204
15
14
9
TP686
10
24 ADSEL D8 22 23 ALE D9 21 D10 20 D11 19 D12 16 D13 15 D14 14 D15 13
32 A0 31 A1 30 A2 29 A3 28 A4 27 A5 26 A6
NC
RI4EN3/4
RO4
RO3
RI3+
7 RI2TP685+3.3V EN1/2
RO2
RO1
RI1+
IC202
NC
DO4EN3/4
DI4
DI3
DI2
DO1-
DO1+
IC203
DI1
C205
SHW_CLK
0.1u
C203
C202 1.0u
RE2 R210
A[0-25]
C204 0.1u
4.7K 4.7K
LD[0-15]
A[0-25]
C206
R219 RE2 R221
R222
R211
R212 R213
180 2.2K 180
4.7K 4.7K
A[0-25]
0.1u
D[0-31]
C208
R220 0.1u
R238
2.2K
C207
10K 0.1u
84
C214
A[0-25]
KX-TDA100BX
LA[1-16]
DG
2
J319 NC FIL302 3 1
+3.3VB
2
J317 NC FIL301 3 1
CKIO
DG
0
+3.3VB
L301
DG
26
27
42
43
44
1
2
3
4
LA[10]
LA[9]
LA[8]
LA[7]
LA[6]
LA[5]
LA[4]
LA[3]
LA[2]
LA[1]
LA[2]
LA[3]
LA[4]
LA[5]
LA[6]
LA[7]
LA[8]
LA[9]
LA[10]
LA[11]
LA[12]
LA[13]
LA[14]
LA[15]
LA[16]
TP701
10K
TP702
Y7
Y6
Y5
Y4
10 9
4 5
1 2
8
6
#LB
VDD
GND
GND
33
12
34
GND
GND
34
#OE
#CS1
#LB
12
#UB
VDD
VDD
33
#WE
41
6
39
40
17
7
11
IC302
CS2/(A18)
8
A1
4
I/O0
A2
3
I/O1
A3
2
9
A4
1
I/O2
A5
44
10
A6
43
13
A7
42
I/O3
A8
27
I/O4
A9
26
14
A10
25
I/O5
I/O9
A11
24
29
30
I/O10
A12
23
15
31
I/O11
A13
22
16
32
I/O12
A14
21
I/O8
35
I/O13
I/O6
36
I/O14
A15
I/O7
37
I/O15
A17
A16
20
38
41
18
A0
nLB
nUB
nWE
LD[0]
LD[1]
LD[2]
LD[3]
LD[4]
LD[5]
LD[6]
LD[7]
LD[8]
LD[9]
LD[10]
LD[11]
LD[12]
LD[13]
LD[14]
LD[15]
nLB
nUB
nWE
CKIO
nRD
nCS_SRAM1
LD[0]
LD[1]
LD[2]
LD[3]
LD[4]
LD[5]
LD[6]
LD[7]
LD[8]
LD[9]
LD[10]
LD[11]
LD[12]
LD[13]
LD[14]
LD[15]
nRD
6 nCS_SRAM0
39
40
17
7
8
9
10
13
14
15
16
29
30
31
32
35
36
37
38
TP782 nWE
TP776 nLB
19
#OE
#CS1
#UB
#WE
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
I/O8
I/O9
I/O10
I/O11
I/O12
I/O13
I/O14
VDD
IC301
nCS_SRAM1
nCS_SRAM0
TP774 J3280 NC TP775 nUB
3
I/O15
IC311
IC311
IC311
9TP2075 J330 0 7TP2076 J331
10TP711
11TP710
12TP709
13TP708
15TP706 J329 NC
14TP707
CS2/(A18)
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
G2B
G2A
G1
Y3
Y2
Y1
C
Y0
B
IC309
A
11
5 A[19] J314 TP772 28 +3.3VB NC R307
A[17]
A[18]
25
LA[11]
10K
24
LA[12]
J313 NC +3.3VB R306
23
LA[13]
A[19]
22
LA[14]
5 TP771 28
21
LA[1]
20
19
LA[15]
A[17]
LA[16]
18
5
4
6
TP705 3
2
TP704 1
A[18]
DQMLL(nWE0) nRD
DQMLU(nWE1)
nCS4
A[25]
nRESET
A[22]
A[21]
TP773
20 21 22 23 24 25
LA[5] LA[4] LA[3] LA[2] LA[1]
TP778
TP777
3 4 5 6 7 8 18 19 20 21 22 23 24 25
LA[14] LA[13] LA[12] LA[11] LA[10] LA[9] LA[8] LA[7] LA[6] LA[5] LA[4] LA[3] LA[2] LA[1]
#BYTE
#RESET
47
12
#WE
+3.3V
nRESET
#OE
#CE
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
N.C./(A21)
DQMLL(nWE0) 11
28
26
2
LA[15]
nRD
1
48
17
16
9
10
13
47
LA[16]
nCS_FLASH1
A[17]
A[18]
A[19]
A[20]
A[21]
A[22]
#BYTE
#RESET
nRESET +3.3V
#WE
DQMLL(nWE0) 11 12
#OE
#CE
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
N.C./(A21)
DG
J316
J315
J312
J311
J310
J309
28
nRD
nCS_FLASH0 26
19
7
LA[10]
LA[6]
6
LA[11]
LA[7]
5
LA[12]
8
4
LA[13]
18
3
LA[14]
LA[8]
2
LA[9]
1
48
17
16
9
10
13
LA[15]
A[17]
A[18]
A[19]
A[20]
A[21]
A[22]
nCS_FLASH1
nCS_FLASH0
LA[16]
nCS0
A[25]
A[24]
J308
IC304
IC303
+3.3V
TP714
TP713
TP712
G2B
G2A Y7
Y6
Y5
Y4
Y3
Y2
Y1
Y0
IC310
G1
C
B
A
NC
VSS
VSS
VCC
#WP/ACC
RY/#BY
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15/A-1
VSS
VSS
VCC
#WP/ACC
RY/#BY
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15/A-1
5
4
6
3
2
1
46
27
37
14
15
29
31
33
35
38
40
42
44
30
32
34
36
39
41
43
45
46
27
37
14
15
29
31
33
35
38
40
42
44
30
32
34
36
39
41
43
45
TP721
7 TP720
9 TP719
10 TP718
11 TP717
TP722
LD[0]
LD[1]
LD[2]
LD[3]
LD[4]
LD[5]
LD[6]
LD[7]
LD[8]
LD[9]
LD[10]
LD[11]
LD[12]
LD[13]
LD[14]
LD[15]
26 A1 25 A0
A[3] A[2] D[18]
DQ18 34
D[10]
DQ10 77
D[2]
DQ6 11 DQ5 10 8 7 5
2 3 1
DQ4 DQ3 DQ2 DQ1 DQ0 VCCQ VCC
17 #WE 59 DQM3(bit31-24) 28 DQM2(bit23-16) 71 DQM1(bit15-8) 16 DQM0(bit7-0) 68 CLK 67 CKE
RD/nWR DQMUU(nWE3) DQMUL(nWE2) DQMLU(nWE1) DQMLL(nWE0)
+3.3V
CKE
D[3]
DQ7 13
18 #CAS
nCASL
9
DG
VSSQ 52
VSSQ 84
VSSQ 46
VSSQ 38
VSSQ 32
VSSQ 12
VSSQ
6
VSS 86
VSS 72
VSS 58
VSS 44
VCCQ
VCCQ 81
VCCQ 75
VCCQ 55
VCCQ 49
VCCQ 41
VCCQ 35
VCC 43
VCC 29
VCC 15
4
D[4]
DQ8 74
19 #RAS
nRAS3L
D[0]
D[1]
D[5]
D[6]
D[7]
D[8]
DQ9 76
20 #CS D[9]
D[11]
D[12]
DQ11 79
DQ12 80
nCS3
TP729 73 NC
TP728 70 NC
D[13]
D[14]
D[15]
D[16]
D[17]
D[19]
D[20]
D[21]
D[22]
D[23]
D[24]
D[25]
D[26]
D[27]
D[28]
D[29]
D[30]
D[31]
DQ19 36
DQ20 37
DQ21 39
DQ13 82
27 A2
A[4]
DQ22 40
DQ23 42
DQ24 45
TP727 69 NC
60 A3
A[5]
DQ14 83
61 A4
A[6]
TP726 57 NC
62 A5
A[7]
DQ25 47
DQ26 48
DQ27 50
DQ15 85
63 A6
A[8]
TP725 30 NC
64 A7
A[9]
VSSQ 78
TP781
+3.3V
+3.3V +3.3V
65 A8
A[10]
DQ28 51
DQ29 53
DQ30 54
DQ16 31
66 A9
A[11]
TP724 21 NC
24 A10/AP
A[12]
DQ17 33
23 BA1
A[13]
DQ31 56
A[15] TP723 14 NC(A11)
22 BA0
A[14]
IC305
NC FIL304 1 3 NC 2
J323
LD[0]
LD[1]
LD[2]
LD[3]
LD[4]
LD[5]
LD[6]
LD[7]
LD[8]
LD[9]
LD[10]
LD[11]
LD[12]
LD[13]
LD[14]
LD[15]
DG
2
J321 NC FIL303 1 3
TP780
TP779
nCS_FLASH1
12 TP716
13 TP715
14
15 nCS_FLASH0
C308 0.1u
J307
1.0u
10K
A[23]
C312
10K R303
R302
A[22]
L303
TP703
J325
2
+3.3V
3.3V
NC TP762 FIL305 1 3
0.1u C314
J301 0 J302 NC J303 0 J304 NC J305 0 J306 NC
1.0u C315
A[20]
2.2u C316
A[19]
DG
L305
LA[1-16]
DG
1000P
2.2u
2.2u
0
C305
C306
64 A7 63 A6 62 A5 61 A4 60 A3 27 A2 26 A1 25 A0
A[9] A[8] A[7] A[6] A[5] A[4] A[3] A[2]
69 NC
TP767
D[18]
D[10]
D[2]
DQ6 11 DQ5 10 8 7 5
2 3 1
DQ4 DQ3 DQ2 DQ1 DQ0 VCCQ VCC
17 #WE 59 DQM3(bit31-24) 28 DQM2(bit23-16) 71 DQM1(bit15-8) 16 DQM0(bit7-0) 68 CLK 67 CKE
RD/nWR DQMUU(nWE3) DQMUL(nWE2) DQMLU(nWE1) DQMLL(nWE0)
9
6
D[0]
D[1]
D[5]
D[6]
D[7]
1 2 3 4 5
TP770
D[3] D[2] D[1] D[0]
NC
J327
2
FIL306 1 3
7
DG
DG
IC309
+3.3V
+3.3V
10 9 8 7 6
10 9 8 7 6
10 9 8 7 6
10 9 8 7 6
+3.3V
14
10K RA304
10K RA303
10K RA302
10K RA301
IC311
D[7] 1 D[6] 2 D[5] 3 D[4] 4 5
D[11] D[10] D[9] D[8]
D[15] 1 D[14] 2 D[13] 3 D[12] 4 5
D[19] D[18] D[17] D[16]
D[23] D[22] D[21] D[20]
D[27] D[26] D[25] D[24]
D[31] 1 D[30] 2 D[29] 3 D[28] 4 5
1 2 3 4 5
8
16
+3.3VB
DG
IC310
10K 10K
10K RA307
10K RA306
8
16
10 9 8 7 6
10 9 8 7 6
+3.3V
10K +3.3V_CPU RA305 10 9 8 7 6
A[1] R304 A[0] R305
A[5] A[4] A[3] A[2]
A[9] 1 A[8] 2 A[7] 3 A[6] 4 5
A[13] A[12] A[11] A[10]
A[17] A[16] A[15] A[14]
A[21] A[20] A[19] A[18]
A[25] 1 A[24] 2 A[23] 3 A[22] 4 5
DG
KX-TDA100 MPR CARD 4/5
VSSQ 84
VSSQ 78
VSSQ 52
VSSQ 46
VSSQ 38
VSSQ 32
VSSQ 12
VSSQ
VSS 86
VSS 72
VSS 58
VSS 44
VCCQ
VCCQ 81
VCCQ 75
VCCQ 55
VCCQ 49
VCCQ 41
VCCQ 35
VCC 43
VCC 29
VCC 15
4
D[3]
DQ7 13
18 #CAS nCASU
CKE
D[4]
DQ8 74
19 #RAS nRAS3U
D[8]
DQ9 76
D[9]
D[11] DQ10 77
D[12]
D[13]
D[14]
D[15]
D[16]
DQ11 79
DQ12 80
DQ13 82
DQ14 83
DQ15 85
DQ16 31
D[17]
D[19]
DQ17 33
DQ18 34
D[20]
D[21]
D[22]
D[23]
D[24]
D[25]
D[26]
D[27]
D[28]
D[29]
D[30]
D[31]
DQ19 36
DQ20 37
DQ21 39
DQ22 40
DQ23 42
DQ24 45
DQ25 47
DQ26 48
DQ27 50
DQ28 51
DQ29 53
DQ30 54
DQ31 56
+3.3V
20 #CS
73 NC
10 9 8 7 6
10 9 8 7 6
nCS3
TP769
70 NC
57 NC
TP766
TP768
30 NC
TP765
21 NC
65 A8
A[10]
TP764
66 A9
A[11]
14 NC(A11)
24 A10/AP
A[12]
IC306
10K RA309
10K RA308
TP763
23 BA1
A[13]
A[15]
22 BA0
A[14]
LD[3] LD[2] LD[1] LD[0]
LD[7] 1 LD[6] 2 LD[5] 3 LD[4] 4 5
LD[11] LD[10] LD[9] LD[8]
LD[15] 1 LD[14] 2 LD[13] 3 LD[12] 4 5
0.1u C317
C320
C307
C301 1.0u
C302 1.0u
L302
C303 0.1u
C304 0.1u
C310 2.2u
C309 NC C311 NC C313
1.0u C318
0.1u
LD[0-15]
NC
2.2u C319
0.1u 0
C321
D[0-31]
L304 NC
L306
0.1u
85
C322
A[0-25]
KX-TDA100BX
+15VIN
R414
G
Q411
DG
P.G
DG
S
D
MOHSEL
Mu/nA
DG
+3.3V
CH_SEL[1]
LHWCLK[0]
LUHW[0]
LDHW[0]
Mu/nA
2.2K R416
TP801
DG
+3.3V
TP819
0.1u
2.2K
DG
P.G P.G
DG
TP821
+3.3V
TP820
0.01u
C412
C413
C414
C415
CH_SEL[0]
P.G
IP401
+15VIN
R401
/PDI
BCLKR
FSR
VDD
RO-
BCLKR
FSR
BCLKT
VDD
20
TP804
EXT
VIN
DG
P.G
4 C-
Vout 5
Vr 6
V+ 8 OSC 7
IC413
R431
L401 TP807
DG
P.G
DG
DG
IC120
P.G
-9.3V
+9.4V
P.G
3
2
1
TP883
C424
TP839 0.1u
MELODYSEL
47K
R432 R434
560
1.9A/33u
VOUT IC402
0.1u
DG
TP837 560
VSS
2 C+ 3 GND
TP834
0.1u
TP838 C425
100K
R430 R433
560
R429
TP836 560
ON/#OFF
TP805
C404
DG
C423 0.1u
1 NC
P.G
DG
TP806
10u/50V
C454
DG
P.G
R406
Q403
4
5
16
1K
TP823
TP829
TP835
17 TP830
18
TITG
19
5
TI+
4
3
PO+
Mu/A
56K
TP831
TP828
TP827
TP833
TP892 R424
2
PO-
TP825
IC406
VAG
15 VSS
6
14 FST
7
12
9
11 MCKL PI
VagRef
1
Mu/A 16
TG 17
TI- 18
DR
10 /PDI
5
4
3
TP832
C422 0.1u
TP891 56K
2 R423
TP826
1
TI+ 19
13 DT
8
PO-
PI
PO+
TP824
IC405
20 VAG
15 VSS
6
14 FST
7
12 BCLKT
9
11 MCKL
10
RO-
S
Q412
TP818
C402
VagRef
56
0.1u
0.01u
0.1u C403
DR
D C
R427
C419 120P 100K 120P
R425 56K R426 56K L413
C421
13 DT
0
LHWCLK[0]
10K
G
R403
0.1u C406
8
C408
330u/25V
+3.3V
1
14
470u/6.3V DG
7
+5V
IP402
TP845
1 GND
DG
0.1u
TP844
DG IC412 4 NC Vin 2 3 Vout 5 NC
7
14
D406A
IC121
4.3V D406
P.G TP809
DG
TP808
22K R437
BATTERY
TST 4
VSS 3
IC410
Q404
5 MT
6 SEL
7 VDD OSC2 2
8 OUT OSC1 1
D407
BAT401+
D409A +5VRMT
L403
0.1u C428
1
R446 10K
TP849
TP879
R445
DG
4
+15V
3
2 8 IC408
82K R444
2
DA401
MA143TW
DG
MA143TW
TP853 3
0.015u
TP851
C430
DG
TP812
TP811
10K
Q405
DG
DG
TP813
EXT #CE
4 5
DG
TP889
10K
R420
GND
4 CE
5
7
1
3
DG
IC411
10M TP890 6
R421
IC404
VOUT VIN
GND
VOUT
IC403
VDD
2
2
TP814
+3.3V
DG
TP815
R415
DG
TP888
+3.3V
3
82K C431 DA402 2 8 IC409 TP850 TP852 TP854 3 1 1 TP848 3 R447 0.015u 4 VREF 10K 2 DG
TP810
22K R440
R441
0.1u C427
VREF
TP847
DG R442 10K
DG R443 10K
C426 TP846 22K
DG
E
Q406 C
TP843
B
NC
L404
J411 0
R435
33K
R436
TP840 33K TP842
TP841
+15V
DG
DG
+3.3V
1
1
TP855
TP856
R448 1M
TP817
R409
R449
DG
C416 DG
BATALM
DG
1.0u
6
5
VREF R452 2.2K
B
Q408
VREF
DG
DG
nBAT_ALM
1.9VB
1.8V
+3.3VB
+3.3V
3.3V_BB
+15V
C Q409 E
B
TP862
4.7K
E
C Q410
R459
3
2
3300P
4.7K R458
4 DG
1
TP863
TP864
8 IC411
+15V
AGC CIRCUIT
22K
1000p
C468
C438 0.033u
DG
TP896
R454 2.2K
1000p
C467
TP858 R455 TP860
GND GND
1.9VB
1.8V
+3.3VB
+3.3V
3.3V_BB
E
C
B
C437 0.033uTP861
DG
1000p
C470
AGC CIRCUIT
82K +15V TP895
R451
IC409 7
6
5
R450 82K +15V TP893 TP894 C Q407 R453 TP859 B E TP857 22K
7
IC408
C469 1000p
22K
TP816
D402 E
B
D403 10V
680 C410
R428 10u/50V
R410 R411
680 D405 5.1V 0.1u C451
C440
LUHW[0]
1.0u
100K C453
0.1u 1.0u
B
E
R412 6.8K D408 R413 D409 J412
0.1u E
R457
C435 1.0u
R456
22K
C444
+15V
+15V
L407
C450
TP872 1.0u TP898 L409 TP904
C449
C447
R465
DG
C448
J409
4 3
1 2
J408
J407
4 3
FIL402
1 2 FIL404
FIL401
FIL403
DG
L417
L416
L419
L418
L415
L414
L421
L420
DG
J413
4
2
JK403
4
2
JK401
4
2
JK404
4
2
JK402
KX-TDA100 MPR CARD 5/5
0 TP870 1.0u TP878 L410 TP906
R463
J405
4 3
1 2
J404
J403
4 3
1 2
J402
J406
TP902
TP871 1.0u TP897 L408 TP903
VREF
C446 TP876
1.0u
TP901
TP900
TP899
47K TP869 1.0u TP877 L412 TP905
DG
L411
C445 TP875
TP868
TP880
R464
0
L406
C443 TP874
TP866 1.0u
C442
TP865 1.0u TP873L405
47K TP867 1.0u R462 2.2K R438 22K
C441 3300P
R460 0.1u
R469 R470 R471
R439 22K
C459
R472
1000P C433 R461
NC NC
NC NC
LDHW[0]
R468
C429 C
B
680
C
1K BAT401
NC NC
R417 10M
C411 C452
2.2K 10K
R418 R419
C417 4.7K
1M NC C432 C420
NC C434 1.0u
22u/16V 22u/16V C436
1.0u
2.2u
10u C464 R473 C418 R422
NC
C439 1000P C463
86
NC C462
2.2K NC C461
NC NC C460 C458
NC NC
C456 NC NC J414
+3.3V +3.3V
KX-TDA100BX
+3.3V
87
NC
R140
NC
R144
NC
NC
R141
R139
R134
NC
NC
R133
R138
R137
NC
R131
NC
NC
R132
R136
NC
R130
NC
R135
NC
NC
NC
R129
R128
R122
R121
NC
R127
NC
NC
R126
NC
R120
R125
NC
NC
NC
NC
R124
R118
R119
R123
NC
NC
NC
NC
R116
R110
R117
R115
NC
NC
10K
10K
R114
R109
NC
R107
10K
R113
10K
R108
R112
NC
R106
NC
R111
10K
NC
10K
R105
R104
R103
NC
10K
R101
R102
NC
10K
R164
R171
EC_nPERR
R204 NC
R200
R206 NC
C105
NC
10K
R202
R205 NC
C104
NC
10K
R201
C103
R203 NC
NC
10K
C102
EC_PAR
EC_CLK
CT_FRAME
CT_C8
CT_NETREF
EC_nCDET
EC_nINT
EC_AD[15]
EC_AD[14]
EC_AD[13]
EC_AD[12]
EC_AD[11]
EC_AD[10]
EC_AD[9]
EC_AD[8]
EC_AD[7]
EC_AD[6]
EC_AD[5]
EC_AD[4]
EC_AD[3]
EC_AD[2]
EC_AD[1]
EC_AD[0]
EC_nRST
EC_nCBE[1]
EC_nCBE[0]
GND
R193
NC
R198
10K
10K
R197
NC
R192
R196
NC
10K
10K
R191
R195
NC
R190
R194
NC
10K
NC
R188
NC
R187
NC
R186
NC
R185
NC
R184
NC
R183
NC
R176
NC
R175
NC
R174
NC
R173
NC
R172
NC
R189
10K
R182
10K
R181
10K
R180
10K
R179
10K
R178
10K
R177
10K
R170
10K
R169
10K
R168
10K
R167
10K
R166
10K
R165
NC
NC
R163
NC
R162
NC
R161
NC
R160
NC
10K
10K
EC_nSTOP
EC_nTRDY
R159 EC_nFRAME
NC
R158
NC
R150
NC
R149
NC
R157
R156
10K
R155
10K
R154
10K
R153
10K
R152
10K
R151
10K
R148
10K
R147
10K
R199
+3.3V
Reserve-B37
nFAN_ALM
Reserve-B36
Reserve-B35
Reserve-A35
RXD2
TXD2
Reserve-B33
Reserve-A33
Reserve-B32
Reserve-A32
Reserve-B31
Reserve-A31
CT_D[7]
CT_D[6]
CT_D[5]
CT_D[4]
CT_D[3]
CT_D[2]
CT_D[1]
CT_D[0]
+3.3V
20.2. BACK/LED BOARD
+3.3V
0.1
C111
0.1
C110
0.1
C109
0.1
C108
0.1
C107
0.1
C106
2.2u
C101
POWERGND
+30V
nFAN_ALM
POWTYPE[1]
AC_ALM
POWTYPE[0] DC_ALM
nBATT
+30V
POWERGND
+40V
+15V
+15VPT
A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22
A6 A7 A8 A9
A5
A4
A3 B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22
B2 B3
B1
CN100 A1 A2
+40V
+15V
+15VPT
DC_ALM POWTYPE[0] DIAG_R
Reserve-A31 Reserve-A32 Reserve-A33 TXD2 Reserve-A35 nBATT nFAN_ALM +30V RINGER nHALT
CT_NETREF CT_FRAME
CT_D[0] CT_D[2] CT_D[4] CT_D[6]
EC_AD[12] EC_AD[14] EC_nINT
EC_AD[6] EC_AD[8] EC_AD[10]
EC_AD[0] EC_AD[2] EC_AD[4]
EC_nTRDY EC_nFRAME EC_nCBE[0] EC_AD[6]
POWERGND EC_CLK
+15VPT
+40V
B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29 B30 B31
B2 B3
B1
A44 B44 A45 B45
A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 B32 A33 B33 A34 B34 A35 B35 A36 B36 A37 B37 A38 B38 A39 B39 A40 B40 A41 B41 A42 B42 A43 B43
A6 A7 A8 A9
A5
A4
A3
A1 A2
NC CN101
+15V
AC_ALM POWTYPE[1] DIAG_T RINGER_AC
Reserve-B31 Reserve-B32 Reserve-B33 RXD2 Reserve-B35 Reserve-B36 Reserve-B37 +30V RING_SYNC RING_SIN
EC_AD[7] EC_AD[9] EC_AD[11] Reserve-B18 EC_AD[13] EC_AD[15] EC_nCDET Reserve-B22 CT_D[1] CT_D[3] CT_D[5] CT_D[7] Reserve-B27 CT_C8 nLOS
EC_AD[1] EC_AD[3] EC_AD[5]
EC_nPERR EC_PAR EC_nCBE[1] EC_nRST
POWERGND EC_nSTOP
+15VPT
+3.3V DC_ALM POWTYPE[0] DIAG_R
Reserve-A31 Reserve-A32 Reserve-A33 TXD2 Reserve-A35 nBATT nFAN_ALM +30V RINGER nHALT
CT_NETREF CT_FRAME
CT_D[0] CT_D[2] CT_D[4] CT_D[6]
EC_AD[12] EC_AD[14] EC_nINT
EC_AD[6] EC_AD[8] EC_AD[10]
EC_AD[0] EC_AD[2] EC_AD[4]
EC_nTRDY EC_nFRAME EC_nCBE[0] EC_AD[0]
POWERGND EC_CLK
+15VPT
+40V
B41 B42 B43
B38 B39 B40
B30 B31 B32 B33 B34 B35 B36 B37
B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29
B2 B3
A44 B44 A45 B45
A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43
A6 A7 A8 A9
A5
A4
A3
B1
CN102 A1 A2
+15V
AC_ALM POWTYPE[1] DIAG_T RINGER_AC
Reserve-B31 Reserve-B32 Reserve-B33 RXD2 Reserve-B35 Reserve-B36 Reserve-B37 +30V RING_SYNC RING_SIN
EC_AD[7] EC_AD[9] EC_AD[11] Reserve-B18 EC_AD[13] EC_AD[15] EC_nCDET Reserve-B22 CT_D[1] CT_D[3] CT_D[5] CT_D[7] Reserve-B27 CT_C8 nLOS
EC_AD[1] EC_AD[3] EC_AD[5]
EC_nPERR EC_PAR EC_nCBE[1] EC_nRST
POWERGND EC_nSTOP
+15VPT
+3.3V
DC_ALM POWTYPE[0] DIAG_R
Reserve-A31 Reserve-A32 Reserve-A33 TXD2 Reserve-A35 nBATT nFAN_ALM +30V RINGER nHALT
CT_NETREF CT_FRAME
CT_D[0] CT_D[2] CT_D[4] CT_D[6]
EC_AD[12] EC_AD[14] EC_nINT
EC_AD[6] EC_AD[8] EC_AD[10]
EC_AD[0] EC_AD[2] EC_AD[4]
EC_nTRDY EC_nFRAME EC_nCBE[0] EC_AD[1]
POWERGND EC_CLK
+15VPT
+40V
B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29 B30 B31 B32 B33 B34 B35 B36 B37 B38 B39 B40 B41 B42 B43
B2 B3
A44 B44 A45 B45
A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43
A6 A7 A8 A9
A5
A4
A3
B1
CN103 A1 A2
+15V
+3.3V
DC_ALM POWTYPE[0] DIAG_R
Reserve-A31 Reserve-A32 Reserve-A33 TXD2 Reserve-A35 nBATT nFAN_ALM +30V RINGER nHALT
CT_NETREF CT_FRAME
CT_D[0] CT_D[2] CT_D[4] CT_D[6]
EC_AD[12] EC_AD[14] EC_nINT
EC_AD[6] EC_AD[8] EC_AD[10]
EC_AD[0] EC_AD[2] EC_AD[4]
EC_nTRDY EC_nFRAME EC_nCBE[0] EC_AD[2]
POWERGND EC_CLK
+15VPT
+40V
B4 B5 B6 B7 B8 B9 B10 B11 B12 B13 B14 B15 B16 B17 B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29 B30 B31 B32 B33 B34 B35 B36 B37 B38 B39 B40 B41 B42 B43
B2 B3
A44 B44 A45 B45
A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43
A6 A7 A8 A9
A5
A4
A3
B1
CN104 A1 A2
+15V
AC_ALM POWTYPE[1] DIAG_T RINGER_AC
Reserve-B31 Reserve-B32 Reserve-B33 RXD2 Reserve-B35 Reserve-B36 Reserve-B37 +30V RING_SYNC RING_SIN
EC_AD[7] EC_AD[9] EC_AD[11] Reserve-B18 EC_AD[13] EC_AD[15] EC_nCDET Reserve-B22 CT_D[1] CT_D[3] CT_D[5] CT_D[7] Reserve-B27 CT_C8 nLOS
EC_AD[1] EC_AD[3] EC_AD[5]
EC_nPERR EC_PAR EC_nCBE[1] EC_nRST
POWERGND EC_nSTOP
+15VPT
+3.3V
KX-TDA100 BACK/LED BOARD 1/3
AC_ALM POWTYPE[1] DIAG_T RINGER_AC
Reserve-B31 Reserve-B32 Reserve-B33 RXD2 Reserve-B35 Reserve-B36 Reserve-B37 +30V RING_SYNC RING_SIN
EC_AD[7] EC_AD[9] EC_AD[11] Reserve-B18 EC_AD[13] EC_AD[15] EC_nCDET Reserve-B22 CT_D[1] CT_D[3] CT_D[5] CT_D[7] Reserve-B27 CT_C8 nLOS
EC_AD[1] EC_AD[3] EC_AD[5]
EC_nPERR EC_PAR EC_nCBE[1] EC_nRST
POWERGND EC_nSTOP
+15VPT
KX-TDA100BX
88
POWTYPE[0] DIAG_R
DC_ALM
nHALT
nBATT nFAN_ALM +30V RINGER
Reserve-A33 TXD2 Reserve-A35
Reserve-A32
Reserve-A31
CT_NETREF CT_FRAME
CT_D[6]
CT_D[4]
CT_D[0] CT_D[2]
EC_AD[14] EC_nINT
EC_AD[12]
EC_AD[10]
EC_AD[6] EC_AD[8]
EC_AD[4]
EC_AD[0] EC_AD[2]
EC_nCBE[0] EC_AD[3]
EC_nFRAME
EC_nTRDY
POWERGND EC_CLK
+15VPT
+40V
B5 B6 B7 B8 B9
A5 A6
A9
B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29 B30 B31 B32 B33 B34 B35 B36 B37 B38 B39 B40 B41 B42 B43
A44 B44 A45 B45
A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43
A18 A19 A20 A21
A15 B15 A16 B16 A17 B17
A10 B10 A11 B11 A12 B12 A13 B13 A14 B14
A7 A8
B4
B2 B3
B1
A4
A3
A1 A2
CN105
+15V
RINGER_AC
POWTYPE[1] DIAG_T
AC_ALM
RING_SIN
Reserve-B36 Reserve-B37 +30V RING_SYNC
Reserve-B33 RXD2 Reserve-B35
Reserve-B32
Reserve-B31
CT_C8 nLOS
CT_D[7] Reserve-B27
CT_D[5]
Reserve-B22 CT_D[1] CT_D[3]
EC_AD[15] EC_nCDET
EC_AD[11] Reserve-B18 EC_AD[13]
EC_AD[7] EC_AD[9]
EC_AD[5]
EC_AD[1] EC_AD[3]
EC_nCBE[1] EC_nRST
EC_PAR
EC_nPERR
POWERGND EC_nSTOP
+15VPT
+3.3V
POWTYPE[0] DIAG_R
DC_ALM
nHALT
nBATT nFAN_ALM +30V RINGER
Reserve-A33 TXD2 Reserve-A35
Reserve-A32
Reserve-A31
CT_NETREF CT_FRAME
CT_D[6]
CT_D[4]
CT_D[0] CT_D[2]
EC_AD[14] EC_nINT
EC_AD[12]
EC_AD[10]
EC_AD[6] EC_AD[8]
EC_AD[4]
EC_AD[0] EC_AD[2]
EC_nCBE[0] EC_AD[4]
EC_nFRAME
EC_nTRDY
POWERGND EC_CLK
+15VPT
+40V
B9
B6 B7 B8
B5
B4
B2 B3
B1
B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29 B30 B31 B32 B33 B34 B35 B36 B37 B38 B39 B40 B41 B42 B43
A44 B44 A45 B45
A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43
A18 A19 A20 A21
A15 B15 A16 B16 A17 B17
A10 B10 A11 B11 A12 B12 A13 B13 A14 B14
A9
A7 A8
A6
A5
A4
A3
A1 A2
CN106
+15V
RINGER_AC
POWTYPE[1] DIAG_T
AC_ALM
RING_SIN
Reserve-B36 Reserve-B37 +30V RING_SYNC
Reserve-B33 RXD2 Reserve-B35
Reserve-B32
Reserve-B31
CT_C8 nLOS
CT_D[7] Reserve-B27
CT_D[5]
Reserve-B22 CT_D[1] CT_D[3]
EC_AD[15] EC_nCDET
EC_AD[11] Reserve-B18 EC_AD[13]
EC_AD[7] EC_AD[9]
EC_AD[5]
EC_AD[1] EC_AD[3]
EC_nCBE[1] EC_nRST
EC_PAR
EC_nPERR
POWERGND EC_nSTOP
+15VPT
+3.3V
POWTYPE[0] DIAG_R
DC_ALM
nHALT
nBATT nFAN_ALM +30V RINGER
Reserve-A33 nLDHW[1] Reserve-A35
Reserve-A32
Reserve-A31
CT_NETREF CT_FRAME
CT_D[6]
CT_D[4]
CT_D[0] CT_D[2]
EC_AD[14] EC_nINT
EC_AD[12]
EC_AD[10]
EC_AD[6] EC_AD[8]
EC_AD[4]
EC_AD[0] EC_AD[2]
EC_nCBE[0] EC_AD[5]
EC_nFRAME
EC_nTRDY
POWERGND EC_CLK
+15VPT
+40V
B9
B6 B7 B8
B5
B4
B2 B3
B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29 B30 B31 B32 B33 B34 B35 B36 B37 B38 B39 B40 B41 B42 B43
A44 B44 A45 B45
A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43
A18 A19 A20 A21
A15 B15 A16 B16 A17 B17
A10 B10 A11 B11 A12 B12 A13 B13 A14 B14
A9
A7 A8
A6
A5
A4
A3
B1
CN107 A1 A2
+15V
RINGER_AC
POWTYPE[1] DIAG_T
AC_ALM
RING_SIN
Reserve-B36 Reserve-B37 +30V RING_SYNC
Reserve-B33 nLUHW[1] Reserve-B35
Reserve-B32
Reserve-B31
CT_C8 nLOS
CT_D[7] MASTER/nS
CT_D[5]
nSHW_FH CT_D[1] CT_D[3]
EC_AD[15] EC_nCDET
EC_AD[11] nSHW_CLK EC_AD[13]
EC_AD[7] EC_AD[9]
EC_AD[5]
EC_AD[1] EC_AD[3]
EC_nCBE[1] EC_nRST
EC_PAR
EC_nPERR
POWERGND EC_nSTOP
+15VPT
+3.3V
KX-TDA100 BACK/LED BOARD 2/3
KX-TDA100BX
+15VPT
89 POWTYPE[0] DIAG_R
DC_ALM
TXD1 CS1 DR1 nLDHW[1] LEDRUN nBATT nFAN_ALM +30V RINGER nHALT
CT_NETREF CT_FRAME
CT_D[0] CT_D[2] CT_D[4] CT_D[6]
EC_AD[12] EC_AD[14] EC_nINT
EC_AD[8] EC_AD[10]
EC_AD[6]
EC_AD[2] EC_AD[4]
EC_AD[0]
EC_nTRDY EC_nFRAME EC_nCBE[0] EC_AD[11]
POWERGND EC_CLK
+40V
B4 B5 B6 B7
A3 A4 A5 A6
B14 B15 B16 B17 B18 B19 B20 B21 B22 B23 B24 B25 B26 B27 B28 B29 B30 B31 B32 B33 B34 B35 B36 B37
A44 B44 A45 B45
B38 B39 B40 A41 B41 A42 B42 A43 B43
A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40
A9
B8 B9 A10 B10 A11 B11 A12 B12 A13 B13
A7 A8
B2 B3
B1
CN112 A1 A2
+15V
DIAG_T RINGER_AC
POWTYPE[1]
AC_ALM
+30V RING_SYNC RING_SIN
RXD1 RS1 ER1 nLUHW[1] LEDALM DCD1
EC_AD[13] EC_AD[15] EC_nCDET nSHW_FH CT_D[1] CT_D[3] CT_D[5] CT_D[7] MASTER/nS CT_C8 nLOS
EC_AD[9] EC_AD[11] nSHW_CLK
EC_AD[7]
EC_AD[3] EC_AD[5]
EC_AD[1]
EC_nPERR EC_PAR EC_nCBE[1] EC_nRST
POWERGND EC_nSTOP
+15VPT
+3.3V
Open:Mtype Short:Stype
LEDRUN
LEDALM
DCD1
FG
1
2 1 Green LED201
2
LED202 Red
L102
L103
L101
L112
L111
L110
L109 GND
L108
TXD1
L107
L106
L105
L104
RXD1
CS1
RS1
DR1
ER1
3
2
1
CN201
3
2
1
CN114
9
8
7
6
5
4
3
2
1
CN113
+3.3V
NC R318
10K
R338
NC
R337
NC
R336
NC
R335
NC
R334
NC
NC
NC
CT_FRAME
CT_C8
CT_NETREF
Reserve-B36
CT_D[7]
CT_D[6]
CT_D[5]
CT_D[4]
CT_D[3]
CT_D[2]
CT_D[1]
CT_D[0]
KX-TDA100 BACK/LED BOARD 3/3
0.1
C207
0.1
C206
0.1
C205
R348
C210
NC
C209
NC
C208 R346
NC
NC
NC
0.1
NC R328
R342
10K
0.1
NC R327
NC
R345
C204
NC R326
R340
R333
NC
R332
NC
R331
NC
R330
NC
R329
NC
R325
NC
R324
NC
0.1
10K
R343
NC R323
C203
+3.3V
+3.3V
R347
nFAN_ALM
Reserve-B35
Reserve-A35
Reserve-B33
Reserve-A33
Reserve-B32
Reserve-A32
Reserve-B31
Reserve-A31
R344
C202
2.2u
C201
R312
NC
NC R317
NC
R316
NC
R315
NC
R314
NC
R313
NC
R306
NC
R305
NC
R311
R310
NC
R309
NC
R308
NC
R307
NC
R303
NC
R302
NC
NC R304
NC R301
KX-TDA100BX
Waveform 4
Waveform 1
16.384MHz
16.384MHz
20.3. WAVEFORM
90
32.768kHz
Switching the frequency of 20Hz/25Hz is possible by the soft setting. The abobe-mentioned waveform is the example of 20Hz.
Waveform 5
Waveform 2
65.536MHz
Switching the pulse spacing of 2976msec/3840msec /4992msec/5120msec is possible by the soft setting. The abobe-mentioned waveform is the example of 5120msec.
Waveform 6
Waveform 3
KX-TDA100BX
Waveform 7
20MHz
Waveform 8
12MHz
KX-TDA100BX
91
48
25
48
25
R251R240
RA202 24
2
IC205
1
IC303
37
48
25 C213 36 R244 R242
12
D407
13
CN206
IC304
QA103
QA101 R148
1
24
1
24
SG
9 1
C454 1
1
J313
IC301
R306
7
22 J317
FIL301
23
8
C466 R567 R569 IC132
J132 L192
SG
L146 L144 1 L142 L140 181 240 L138 R142 L136 L134 RA309 L132 L130 L128 L126 L124 L305 L122 43 R124 L120 J325 L204 R229 1 R120 L116 L205 RA307 FIL204 R122 L118 R107 L105 IC305 L206 R231 R109 L107 RA114 R111 RA306 L207 FIL205 L208 R233 44 85 L217 L218 L216 L215 L214 L213 R218 L210 L212 RA112 R518 14 IC130 8 L211 R513 R514 C161 RA204 RA205 R515 R516 1 7 1 14 R517 R507 R551 IC126 QA102 1 14 R508 16 9 7 8 IC206 C212 44 34 8 IC202 7 33 8 12 1 8 L203 R228 FIL203 J201 1 J202 R223 IC204 J204 R214 J211 J205 R224 23 16 11 J206 9 10 R217 R236 22 J207 CN211 R212 R227 R238 J208 IC203 J212 FIL206 11 2 8 1 3
22
44
8 1
C453
RESET
SW101
C215
1
IC302
J314 23
1
C167
INIT
NORM
SW103
C173
R307
7
119
1
J303 J302
CN103
FIL110
1
7
R504 J301 R192 A1 IP401 B1 R194 5 J329 16 L161 10 L165 L16715 20 IC309 9 J330 R193 J331 RA134 L164 R196 J304 L166 R563 J305 1 8 120 L163 R195 L173 R559 J134 14 J306 J308 J307 L172 FIL111 L191 L174 R191 C160 L176 C159 L177 14 8 1
L301 C166
5
CN205
1
Q411 J328
4
RA305
RA308
R401
1
8
C203 X201 R208 C201 R207
IC413
RA201
14 8 16 16 IC310 9 IC127 IC201 9
R230
R232
R209
PSUP1317ZB
C218 R247
X202
RA116
44
R241
IC102
1
R226
L175
FIL107
C402
C214
J159 R143
14 IC311 8
R220
R557 R558 L168 L169 L170 L171
IC111
R524
R568
IC120
25
CN209
105
52
RA108
C418
IC101
1 4
JK403
MOH#2
1
157
208
X102
IC403
Q405
SW104
JK401
PAGE#2
1
JK402
PAGE#1
7
8
7
C465 8
R189
1
14
R203 R130 R128 J158 R570
C129
C132
R153 14
D408
RA136
5
4
IC411
5
11 IC408 1 1 10 10 1 R445 4 R444 4 1 R423 R447 R446 R424 C434 C432 Q407 DA402 Q408
C413 11 20
R204
R206 R205 R246
J412
D409
RA137
A45 B45
R468
Q406 IC410 1 4 C415 R436 R435 C428 5 8 C4275 8
R440 8
1
8
R413
40
CN207 L406 L405L409 J407
R454 R449 R452 R448 C438 R457 R456 C437 Q410 R453 R455 R458 Q409 C445 C448 C450 C449
J114
R469 R471 C459 C460 FIL403
L411 L410 L412 FIL402 R472 C456 C458 J414 J413 FIL401 R470
KX-TDA100 MPR CARD COMPONENT VIEW
JK404
MOH#1
1
35
8 R519 J160 8 J161 14 J163 IC121 J162 1 7 7
X101
156 J102
RA102
RA304 RA303 RA302 RA301
7
8 14
30
IC110
L401
R222
RA135
RA106
29
R248 C217
R243
R550
121 R503
2 R560 R561 180
120
J203
X103 X104 RA104
L121 L110 L113 L114 R555 L109 R127 R103 R126 R422 R525 J105 J139
R417 R415
L148 R553 L150 L149 R197 L151 L153 L152 L155 L154 L156 L158 L157 L160 L159 L162
R219
R213
R506
R511 R510
R512
R125 R114 R117 R118 R113
FIL202
C417
IC404
R145 R179 R181 R505 R146 R183 R184 R186 R185 R188 R187 R190 L184 L183 R182 R180 R521 R520 L186 L185 L187
R151 R155 R166 R167 R156 R152 C464 R473
R565
IC131
R564
R178
SW102
J309 J310 J311 J312 C216
R211 R216 R210 R215 R209 R237 R221
C208
C442
30
R239
J113 BATALM LED103 R176 R164
LED101 SDIN
J403
C114
C426
C408
J402
J121 J122 J124 J123
IC406
IC125 R566 C443 R459
IC409
R245
R428
R419 R418 R420 FIL404
L408 J406 J405
21.1. MPR CARD
J404 J409
J101
20
BAT401(CR2354) 7 1 R427 R416 IC405
DA401
C446 R464 R462 R465 C447 R463 J408
92
L407
21 PRINTED CIRCUIT BOARD
KX-TDA100BX
R441 L194 R138
R523
R502
R437
C425
C461 C462 C463
C414
C412 R414
93
C112 R104 C124 C138 C455 C137 L102 L101 C128 1 C127 C109 C122 C118 C117 C123 R198
R443 R451
R442 R450 C424
C440 R461
C470
C419 R425
C439 R460
C421 R426
R429 R431 4
5
R129
L416
L154 L196
FIL102 8
IC103
C119
RA101 FIL103
C103 C110 C120 L195
SW107 OFF ON
ON
R112
RA111
C468 C469 C441 C444
C104
R102
RA115
R134 C111 R509
L229
FIL201 C202 J226
C204 C205
J210
USBCLK
C317
R432 R430
C121 C116 C126 J209
J217
J214 1
20
J215
IC207
Q201
RA207
R552 C172
IC107
D402
J108 R133 R132
C467
BATALM
C211
RA203
L228
#WP/ACC
J323
FIL209
J224
8
C210
FIL208 J227 SDCLK R249 J216 R250 C209 FIL207 L227 J222
1 IC209 7
14
J321
J116
R105
L415
KX-TDA100 MPR CARD BOTTOM VIEW
D102
C207
10 C174 C171
11
L226 L224 10 L222 11 L220 IC208
R302 R303
+3.3VB L302
C308 C310 C219 C312 C220
R556 OFF
RA113
C125
J213
1
20
L225 L223 L221 L219
RA206
DIP00 C431 DIP02 DIP01 C430 C436 DIP03 C435 DIP04 DIP05 DIP06 DIP07
43
C315
R119 R121 R123 R108
1
IC306
11
11 20
20
J319
C302
FIL303
C423
C135 C318 C314
10
10 1
1
C304 C306
+3.3V
3.3V BB C416 C420
L303
C422
C429
44
C307
C303 C305
R434
R135 R136 C316 86 FIL306 C319 L306 J327
FIL305
RA119
R305
FIL106
C301
C320
Q404 L403
C311 C309 C313 FIL304
R433
C102
L103 XTAL RA105 C136 R131 RA103 RA107 J107 J106 C107 C106 C108 J110 J152 J109 C105 C101 C130 FIL101 C134 OFF ON C133 SW106 C131 FIL105 J120 FIL104 J153 R549 SCLK
R304 RA109
C144
R140 J156 C146
R526
J157
C147
IC123
R438 C433
R157 R150
1.8V 1.9VB
R157 R156
C170
C145
R530 R529 R527 L190 R528 R531R532
RA118 RA117
FIL108 L304
R439
R159 R165 R522 L189
J315 J316
C322
FIL302
J133
J131
R421
R170 R168 L178
C175 R172 R161
C162
GND
IC402
C404 L413
R412
D409A
TCK TD0A TDI TD0 TMS nTRST R562 J127
J130 J129 J128
R158 R171 R554 C149
BAT401+
C141 PLLCLK C151 C142 FIL109 J125 J126 C139 C140 L193 C143 J135 J155
C150
R173 R162 R163 R174
C169 C168 L147 R199 L145 R501 L143 RA122 L141 L139 L137 RA121 L135 L133 L131 RA120 L129 L127 L125 L123 L108 L115 L117 L119 R106 L106 R110
C410
C148
R144
D406A
D406
J136
IC412 C206
C403
Q101
C321
D403
R403
Q412
J411 L404 IP402 C406 R410 D405 R411 R409
R175 C163 C411
+15VIN
Q403 R406
C451 C452
RA129 RA128 RA127 RA126 RA125 RA124 RA123 RA133
KX-TDA100BX
IC124
R137 L421
L420
L418 L419
L417
L414
J115
A22
CN100
C108
B1
C109 C104
A1
B22
R133 C110 R140 R134 R139 R141 R144
C106 R206
C107
C111
A45
R138 R132 R131 R137 R136 R130 R129 R135 R128 R122
R123 R117 R118 R124 R125 R119 R120 R126 R127 R121
R205 R201 R200 R204 C103 R199 R203 R102 R110 R116
R111 R105 R106 R112 R113 R107 R108 R114 R109 R115
R195 R190 R191 R196
R197 R192 R193 R198 R103 R101 R102 R104
R194 R189 R182 R188
R185 R179 R178 R184 R186 R180 R181 R187
R176 R170 R177 R183 R175 R169 R168 R174
R172 R166 R167 R173
R171 C101 R165 R157 R156 R164 R163 R162 R155 R154 R161
R158 R151 R148 R150
C105 R202 R147 R149
R159 R152 R153 R160
21.2. BACK/LED BOARD
A1
CN102 B1
B45 A45 A1
CN103 B1
B45 A45 A1
CN104 B1
B45 A45 A1
CN105 B1
B45
CN106 B1
B45 A45 A1
CN107 B1
B45 A45
R313 R306 R311 R303 R307 C204 C203 R302 R317 R308 R305 R314 R318 R342 R316 R310 R315 R304 C201 R312 R340 C202 R309 R301
C209 R347 C210 R344 R348 R343 R345 R346 C207 C208 A1
CN112 B1
B45
L105 L104 L106 L110 L111
R338 R333 R332 C206 R337
L112 L108 L101 L103 9 L107 L109 L102
R335 R330 R331 R336
R334 R326 R329 R323 R325 R324 C205 R328 R327
PSUP1367Z-A
B
RUN
3
CN114
LED201
B
1
CN113
PSUP1367Z-B
1
LED202 ALM
KX-TDA100 BACK/LED BOARD COMPONENT VIEW
A45 A1
1
94 3 CN201
KX-TDA100BX
95
45
40
GND RXD1 RS1 ER1 RXD2 LEDALM DCD1 M/nS
25
EC_AD[11]
nSHW_CLK EC_AD[13] EC_AD[15] EC_nCDET nSHW_FH CT_D[1] CT_D[3] CT_D[5] CT_D[7] MASTER/nS CT_C8 nLOS GND GND Reserved TXD1 Reserved Reserved CS1 DR1 nLUHW[1] TXD2 Reserved LEDRUNReserved M/nS +30V RING_SYNC RING_SIN +3.3V AC_ALM POWTYPE[1] DIAG_T RINGER_AC
+15VPT +15V Power GND EC_nSTOP GND EC_nPERR 5 EC_PAR EC_nCBE[1] EC_nRST EC_AD[11] GND EC_AD[1] EC_AD[3] EC_AD[5] GND EC_AD[7] EC_AD[9]
B
A +15VPT +40V Power GND EC_CLK GND EC_nTRDY EC_nFRAME EC_nCBE[0] EC_AD[5] GND EC_AD[0] EC_AD[2] EC_AD[4] GND EC_AD[6] EC_AD[8] EC_AD[10] GND EC_AD[12] EC_AD[14] EC_nINT GND CT_D[0] CT_D[2] CT_D[4] CT_D[6] GND CT_NETREF CT_FRAME GND Reserved Reserved Reserved nLDHW[1] Reserved nBATT nFAN_ALN +30V RINGER nHALT GND DC_ALM POWTYPE[0] DIAG_R GND 45
40
40
45
35
30
25
20
35
30
25
20
15
EC_AD[3]
EC_AD[4]
A
5
B
5
1
15
A
10
B
10
5
1
45
40
35
30
25
20
15
10
1
B A
EC_AD[2]
5
45
40
35
30
25
20
15
10
1
B A
45
40
35
30
25
20
15
10
5
B A
EC_AD[0]
+40V
+30V Power GND nFAN_ALM POWTYPE[1] AC_ALM
10
5 +15V
22
20
15
+30V Power GND nBATT POWTYPE[0] DC_ALM
Power GND
EC_AD[6]
A 1
+15V
+15VPT
B
KX-TDA100 BACK/LED BOARD BOTTOM VIEW
EC_AD[1]
5
1
Power GND
20
A
+40V
15
10
1
B
+15VPT
LED201
LED202
KX-TDA100BX
KX-TDA100BX
96
A, KXTDA100BX