PROGRAMMABLE CONTROL MODULE: LONMARK® The Phoenix Controls Programmable Control Module (PCM) series provides a means of connecting additional inputs and outputs to the Celeris®, Theris® and Traccel® room-level network and developing custom control sequences to enhance the control functions. The PCM offers varying numbers of configurable input and output connections; provides a simple, efficient graphical programming interface for developing custom control applications; and adds tremendous power and flexibility to the Phoenix Controls environmental control system. FEATURES • • • • • •

Interfaces with Celeris, Theris and Traccel room-level networks 4, 6, 10 and 12 universal inputs 6, 8 and 12 universal/digital outputs Graphical block-oriented programming DIN rail mounting (all but PCM210) Separable housing allows removal of controller from wiring base Programmable Control Module (PCM)

SPECIFICATIONS

General Specifications (continued) • Communication: LonTalk® protocol • Channel: TP/FT-10; 78 Kbps • Transceiver: FT 5000 Free Topology Smart Transceiver • Built-in real-time clock • Battery (clock only): Rechargeable Lithium (PCM 212 and 213 only) • Status indicator: - Green LEDs: power status and LON TX - Orange LEDs: service and LON RX • Communication Jack (except PMC210): LON® audio jack mono 1/8" (3.5 mm)

Enclosure • ABS type PA-765A tan enclosures with gray connectors Dimensions • PCM210 — 4.8" x 5.9" x 2.5" (122.5 x 149.1 x 63.0 mm) • PCM211 — 5.7" x 4.7" x 2.0" (144.8 x 119.4 x 50.8 mm) • PCM212 — 5.7" x 4.7" x 2.0" (144.8 x 119.4 x 50.8 mm) • PCM213 — 7.7" x 4.7" x 2.0" (195.6 x 119.4 x 50.8 mm) Approximate Weight • PCM210 — 0.92 lbs (0.42 kg) • PCM211 — 0.97 lbs (0.44 kg) • PCM212 — 0.97 lbs (0.44 kg) • PCM213 — 1.17 lbs (0.53 kg) Environmental • Operating temperature PCMs 210, 212, and 213: 32° F to 122° F (0° C to 50° C) PCM 211: -40° F to 158° F (-40° C to 70° C) • Storage temperature PCMs 210, 212, and 213: -4° F to 122° F (-20° C to 50° C) PCM211: -40° F to 158° F (-40° C to 70° C) • Relative humidity 0 to 90% non-condensing Power Inputs • Voltage 24 Vac; ±15%, 50/60 Hz (PCM210 only) • Voltage 24 Vac/Vdc; ±15%, 50/60 Hz (PCM211, PCM212, PCM213) • Must be powered by a 24 Vac, Class 2 power supply • Power supply polarity must be maintained Power Consumption

Inputs/Outputs Type and quantity of I/O are determined by model number. For details on I/O, see the Ordering Guide, page 2. Agency Compliance Electromagnetic Compatibility: CE:

FCC:

—Emission:

EN61000-6-3: 2007; Generic standards for residential, commercial and lightindustrial environments

—Immunity

EN61000-6-1: 2007; Generic standards for residential, commercial and lightindustrial environments

This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: 1. This device may not cause harmful interference. 2. This device must accept any interference received, including interference that may cause undesired operation.

PCM210

10 VA (typical) / 85 VA (maximum)

2.0/3.0 A replaceable fuse*

PCM211

14 VA (typical) / 23 VA (maximum)

2.0 A replaceable fuse

PCM212

16 VA (typical) / 38 VA (maximum)

3.0 A replaceable fuse

Agency Approvals

PCM213

22 VA (typical) / 60 VA (maximum)

3.0 A replaceable fuse

UL Listed (CDN and US): UL916 Energy management equipment

*3.0 A for Triacs when using internal power supply.

Enclosure Material: UL94-5VB

General Specifications • Processor: STM32 MCU, 32 bit; 68 MHz (PCMs 210, 211) or 72 MHz (PCMs 212, 213) • Memory: Memory Type

PCM210/PCM211 384 KB

1 MB

Non-volatile Flash (storage)

1 MB

2 MB

RAM

64 KB

96 KB

•

Acton, MA 01720

•

Specifications ............................................................ 1 Ordering Guide ........................................................ 2 Inputs/Outputs......................................................... 2 Applications.............................................................. 4

PCM212/PCM213

Non-volatile Flash (applications)

75 Discovery Way

TABLE OF CONTENTS

Tel (978) 795-1285

©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

•

MKT-0244

Fax (978) 795-1111 MPC-1968

•

www.phoenixcontrols.com

PROGRAMMABLE CONTROL MODULE: LONMARK - 1

ORDERING GUIDE

PCM 213 - R04 PRODUCT FAMILY PCM = Programmable Control Module SERIES 210 = Surface mount programmable controller: 4 universal inputs/2 universal outputs/4 digital triac outputs; supports up to 2 optional external DIN rail mounted 8A SPDT relays 211 = DIN rail or surface mount programmable controller: 6 universal inputs/3 universal outputs/5 digital triac outputs; supports up to 3 optional external DIN rail mounted 8A SPDT relays 212 = DIN rail or surface mount programmable controller: 10 universal inputs/8 universal outputs; supports up to 8 optional external DIN rail mounted 8A SPDT relays 213 = DIN rail or surface mount programmable controller: 12 universal inputs/12 universal outputs; supports up to 12 optional externally mounted 8A SPDT relays

OPTION Rnn = Optional externally DIN rail mounted 8A SPDT relay nn = quantity of relays (universal outputs only); number of relays may not exceed number of universal outputs, single digits entries must be preceded by a zero (0n)

The PCM is offered in a variety of configurations with varying numbers of inputs and outputs. All have universal inputs, offering a wide variety of input configurations which are jumper selectable and software configurable. Each model offers different output configurations to suit the specific application. Model Number

Universal Inputs

Universal Outputs

TRIAC Outputs

Options

PCM210

4

2

4

R01 to R02

PCM211

6

3

5

R01 to R03

PCM212

10*

8

—

R01 to R08

PCM213

12*

12

—

R01 to R12

*The first four inputs are software configurable for pulse counting up to 50 Hz and are compatible with an S0 rated (optically-isolated) output. Inputs and Outputs Universal Inputs (Software configurable) Input Types: 0 to 10 Vdc (40k Ω input impedance) 0 to 5 Vdc (high input impedance)

• Voltage

• •

• Current

4 to 20 mA • PCM 210 and PCM211 with 249 Ω external resistor wired in parallel • PCM 212 and PCM213 with 249 Ω jumper configurable internal reisitor

• Digital

Dry contact

• Pulse

Dry contact • PCM210 and PCM211: 500 ms minimum ON/OFF • PCM212 and PCM213: UI1 to UI4: 50 Hz maximum; minimum 10 ms On/Off, S0 output compatible UI5 to UI10 (PCM212)/UI12 (PCM213): 50 Hz maximum; minimum 10 ms On/Off

Resistors: 0 - 350K Ω, all thermistor types that operate in this range are supported. The following temperature sensors are pre-configured: • Thermistor

10K Ω Type 2, 3 (10K Ω @ 77° F; 25° C)

• Platinum

Pt1000 (1K Ω @ 32° F; 0° C)

• Nickel

•

RTD Ni1000 (1K Ω @ 32° F; 0° C)

•

RTD Ni1000 (1K Ω @ 69.8° F; 21° C)

Input Resolution:

16-bit analog/digital converter

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©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

Outputs Digital (PCM210 and PCM211 ONLY)

•

•

•

Universal

•

•

•

•

Software configured for simple on/off, pulse width modulation (PWM), floating, or 24 Vac Triac output signals • PWM: period is adjustable from 2 to 65 seconds • Floating: 500 ms minimum On/Off with adjustable drive time period Maximum current draw • 0.5 A continuous • 1.0 A @ 15% duty cycle for a 10-minute period Power supply • PCM210: jumper selectable external or internal • PCM211: external only Software configured for either discrete or linear output signals • Discrete Output • 0 or 12 Vdc output • Used to generate either a two-state, pulse width modulation (PWM), or floating signal • PWM: period is adjustable from 2 to 65 seconds • Floating: 500 ms minimum On/Off with adjustable drive time period • Built-in snubbing diode to protect against back EMF (e.g. when used with a 12 Vdc relay) • Linear Output • 0 to 10 Vdc (all PCM units), or • 4 to 20 mA configurable by jumper setting (PCM212 and PCM213 only) Load resistance • PCM210: Minimum 600 Ω • PCM211: Minimum 200 Ω • PCM212 and PCM213: • Minimum 200 Ω for 0 - 10 and 0 - 12 V output • Maximum 500 Ω for 4 - 20 mA output Maximum current draw @ 12 Vdc • PCM210: 20 mA • PCM211, PCM212 and PCM213: 60 mA Protected by auto-reset fuse (PCM211,PCM212,PCM213 only) which trips at higher value in lower operating range: • 60 mA@140° F (60° C) • 100 mA@68° F (20° C)

Output Resolution

10-bit analog/digital converter

Power Supply

15 Vdc; maximum 20 mA per universal input • PCM210: 80 mA • PCM211:120 mA • PCM212: 200 mA • PCM213: 240 mA

DC Relay Kit Relay

•

Coil Characteristics: • Rated voltage: 12 Vdc • Rated current: 33.3 mA • Resistance: 360 Ω • Minimum operating voltage: 8.4 V • Operating Temperature: -40o F to 185o F (-40o C to 85o C) • Storage Temperature: -40o F to 221o F (-40o C to 105o C) • Agency Approvals: VDE, RU, CSA, RoHS • Contact Characteristics: • Maximum power rating: 2500 VA • Rated current: 10 A • Rated voltage: 250 Vac • Standard contact material: Silver-nickel 90/10 • Type of Duty: Continuous • Mechanical life expectancy: 1x106 operations • Weight: 10 grams Dimensions (L x W x H): 3.0" x .62" x 2.42" (76.2 mm x 15.8 mm x 61.5 mm)

©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

MKT-0244

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PROGRAMMABLE CONTROL MODULE: LONMARK - 3

APPLICATIONS The Phoenix Controls PCM is a programmable input/output module that can be used as: • A standalone controller Physical sensors and switches may be connected to the PCM, which then performs the desired control by using built-in functions (see section below) to switch or modulate PCM outputs. • An input/output (I/O) expansion module Physical sensors, switches and actuators may be connected to the PCM and values passed across the room-level network to a Celeris valve controller for use in its control sequence. Data from the PCM may also be passed across the building-level network to the BMS for monitoring purposes. • A controller integrated into the Celeris, Theris or Traccel system Data may be passed between the valve mounted controllers and PCM on the room-level network to supplement the control functions of either device. An example might be interlocking door locks between an anteroom and a space under control so that doors may not be opened until the pressure stabilizes or a certain number of air changes have occurred. The PCM can also be used to implement virtually any room-level control sequence that relies on inputs from physical sensors, switches or network based variables to develop the desired control output, function or interlock. Typical control applications include lighting, temperature (spaces adjacent to controlled spaces), and access.

Built-in Functions Essentially any control sequence that can be defined using our programming language based on the graphical block style programming tool which includes: • • • • •

16 PID loops Precision integers with 2 decimals places (± 83886.07) Direct support of SNVTs of 1 and 2 bytes 17 NVIs and 17 NVOs (changeable type and length) 5 NVI Fan-in bindings (changeable type) • 3 NVI - Hisel, Lowsel, Sum and Average (up to 85 NVIs) • 2 NVI - Hisel and Lowsel Extensive block library of the most commonly used functions divided into 12 convenient categories containing over 80 block objects

Toolbox • • • • • • • • • • • •

Comparators Constants and Variables Custom General HVAC Inputs and Outputs Logic Math SNVT Conversions Time Tools VAV

INSTALLATION 1.

Choose a location where the operating conditions may be maintained within the specified environmental limits: • The device is not subject to shock and vibration. • Cable lengths are kept to a minimum. • The device is protected from dripping or spraying liquids, airborne dust and metallic particles. 2. When mounting the device: • Mount vertically with the ventilation slots on top. • Mount on a smooth, flat surface using 35mm DIN rail (all but the PCM 210) mounting screws. • Allow two-inch clearance on all sides for proper ventilation, routing of cables. In some cases, it may be necessary to remove the PCM cover to access the mounting screw slots. See the following Figures for mounting dimensions.

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©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

Figure 1. PCM210 Programmable Control Module

2.50" (63.5 mm)

4.83" (122.7 mm)

.43" (11 mm)

.40" (10 mm)

.20" (5 mm)

Bracket Mounting Kit

.12" (3 mm)

6.25" (158.75 mm) 2.3" (58.4 mm)

Figure 2. PCM211/PCM212 Programmable Control Module

©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

MKT-0244

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PROGRAMMABLE CONTROL MODULE: LONMARK - 5

Figure 3. PCM213 Programmable Control Module

Figure 4. Relay Kit Dimensions

2.42 in. (61.5 mm)

3.0 in. (77 mm) .625 in. (15.8 mm)

Figure 5. Relay Kit Connections

A1 COIL

NO

12

14

11

NC

COM

A2

WIRING All wiring connections are via terminal blocks on the base plate that accommodate wire sizes from 22 to 12 AWG (0.14 to 2.5 mm). Multiple conductors may be placed under one terminal, providing the cumulative diameter does not exceed 0.1" (2.5 mm). See Figure 6 for terminal locations.

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MPC-1968

©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

Phoenix Controls Wiring Recommendations

Table 1: Recommended Cable Specifications

• All circuits must conform to the requirements of an NEC Class 2 (dry) circuit. Power: Minimum cable section 18 AWG Inputs: Minimum cable section 20 AWG (twisted pair) • Use multiple transformers instead of larger transformers when more than 100 VA is required. Digital outputs: Minimum cable section 18 AWG Analog outputs: Minimum cable section 20 AWG (twisted pair) • Each pressurization zone should have either a dedicated Maximum wire gauge is 12 AWG (2.5 mm) single-phase primary circuit, or a secondary circuit disconnect • Use cable sizes recommended by Phoenix Controls (see Table 1). • Use stranded wire for ease of installation. • Follow good wiring practices: • Locate cables away from sources of electrical interference (EMI/RFI). • Do not run signal or communication cable in the same conduit or wire way as power cables. • If signal cable must cross power cables place these at a 90-degree angle. • Shield or drain wires, if required, should be wrapped with insulating tape to prevent contact with exposed conductors or contacts. • Maintain a consistent color code or polarity all the way through the wiring system. • Power supply and signal isolation on I/O devices vary from manufacturer to manufacturer. Verify the wiring device manufacturer’s recommendations for isolating power and signal common connections and maintain polarity. • Local and national electrical codes take precedence. • Strip 0.25" (6.4 mm) of insulation from each conductor, twist the strands, insert the conductor fully into the terminal block, and tighten the terminal. • Test the wire connection by pulling on each conductor. • See Phoenix Recommended Cables for approved cable manufacturers and wire types. Power Connections • The PCMs 211, 212, 213 may be powered by either 24 Vac or 24 Vdc, PCM 210 is 24 Vac only. When locating the device, consider the location of the transformers/power supplies, cable runs, and connected load to ensure proper operating voltage. • Except for PCM 210, power connections are on the top left side of the control module (see Figure 6 for wiring configuration). • An external fuse is recommended to protect the outputs and other equipment powered by the transformer. • To calculate the required transformer power: • Add the power requirements of all of the controllers and peripheral devices. • Add the largest starting power of the group. • Multiply this value by 1.3. • This value is the required transformer power. Note: Failure to maintain proper polarity may cause damage to the control module. Input and Output Connections • The PCM supports a wide variety of universal inputs and analog and digital outputs. • Signal input types are either jumper or software selectable; then defined and scaled using the PCM plug-in. • Two terminations are provided for each input (+ and -). If a shield is used, it should be connected to the signal common (-) terminal. • Power for inputs must be externally supplied. The PCM will not provide a power source for 4-20 mA input devices. • Input connections are on the left side of the control module. • Output connections are on the right side of the control module. See Figure 6 for wiring configuration. Note: Multiple power sources may be present. Ensure that all power is removed before handling bare conductors.

©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

MKT-0244

MPC-1968

PROGRAMMABLE CONTROL MODULE: LONMARK - 7

Network Connections • Connect the PCM to the room-level (FTT-10) control network. Maintain a bus wiring topology. • Network connections are on the lower left side of the control module. • The recommended wire type for communications is Level IV, 22 AWG, unshielded cable, with six twists per foot. For more detailed information, please refer to the Phoenix Recommended Cables or the Junction Box and Wiring Guidelines technical bulletin published by the Echelon Corporation. Figure 6. Electrical Connections

PCM210

LON1

2

LON1

1

15VDC

6

UI4

5

UI3

4

COM

3

UI2

2

UI1

1

UO2

3

COM

2

UO1

1

DO4

6

C3-4

5

DO3

4

DO2

3

C1-2

2

DO1

1

PCM212

UI1

2

COM

3

UI2

UO1

11

24VAC/DC 18

4

UI3

COM

10

24V COM 17

5

COM

UO2

9

24VAC/DC

13

24V COM

12

1

UI1

2

COM

3

UI2

UO1

16

6

UI4

COM

8

4

UI3

COM

15

7

UI5

UO3

7

5

COM

UO2

14

8

COM

COM

6

6

UI4

COM

13

9

UI6

UO4

5

7

UI5

UO3

12

10 UI7

COM

4

8

COM

COM

11

11 COM

UO5

3

9

UI6

UO4

10

12 UI8

COM

2

10 UI7

COM

9

13 UI9

UO6

1

11 COM

UO5

8

14 COM

12 UI8

COM

7

15 UI10

COM

13

13 UI9

UO6

6

UO7

12

24VAC/DC 18

14 COM

COM

5

1

UI1

COM

11

24V COM 17

15 UI10

UO7

4

2

COM

UO8

COM

3

3

UI2

10

16 15 VDC

COM

9

17 LON1

UO8

2

4

UO9

8

18 LON2

COM

1

5

COM

7

6

UO10

6

7

COM

5

8

UO11

4

9

COM

3

UO12

2

COM

1

24VAC

2

24V COM

1

PCM211 1

UI1

2

COM

3

UI2

DO1

16

4

UI3

C1

15

5

COM

DO2

14

6

UI4

C2

13

7

UI5

DO3

12

8

COM

C3

11

9

UI6

DO4

10

C4

9

11 LON1

DO5

8

12 LON2

C5

7

UO6

6

COM

5

UO7

4

COM

3

UO8

2

COM

1

10 15VDC

PCM213

1

8 - PROGRAMMABLE CONTROL MODULE: LONMARK

10 15 VDC 11 LON1 12 LON2

MKT-0244

MPC-1968

©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

PHOENIX RECOMMENDED CABLES Cable Type

Plenum Rated

2C Round

No

3C Round

No

2C Round

Yes

3C Round

Yes

TP

No

Function 24 Vac power (110’ max)

Wire Gauge

Primary Vendor/Part #

18

Belden 9409

141

Belden 9411

± 15 Vdc power

22

Belden 8443

24 Vac power (110’ max)

18

Belden 82740

14

Windy City NP007 960

± 15 Vdc power

22

FTT-10 (4500’)

22

Notes Must be stranded

1: Red 2: Black 3: Green

Must be stranded

Windy City NP002 360

1: Red 2: Black

Must be stranded

Belden 88444

Windy City 004380

1: Red 2: Black 3: Green 4: White (N/A)

Must be stranded

Windy City 107500

BICC Gen C8641

1: White/Blue stripe 2: Blue/White stripe

For more alternatives visit: echalon.com

1: White/Blue stripe 2: Blue/White stripe

For more alternatives visit: echelon.com

Eastman Wire LEV4221 16

Color Code 1: Red 2: Black

TP1250 (425’) FTT-10 (8800’)

Alternate Vendor/Part#

Windy City 109600

BICC Gen C8661 Eastman Wire 5705

TP

Yes

FTT-10 (4500’)

22

Windy City 105500

TP1250 (425’) FTT-10 (8800’)

BICC Gen. 8601 Eastman Wire LEV4221P725

16

Windy City 109500

BICC Gen. C8621 Eastman Wire 725-5705

TSP

No

I/O signal wiring

22

Belden 9501

1: Black&Red

Twisted Shielded Pair

2 TSP

No

I/O signal wiring

22

Belden 9502

1: Black&Red 2: Black&White

Two Twisted Pair, Shielded

3 TSP

No

I/O signal wiring

22

Belden 9503

1: Black&Red 2: Black&White 3: Black&Green

Three Twisted Pair Shielded

8C Shield

No

I/O fume hood controls, Thermostats

22

Belden 9944

1: White (N/A) 2: Orange 3: Black (N/A) 4: Red 5: Green 6: Yellow 7: Blue 8: Brown

8 Conductor, Shielded

8C Shield

Yes

I/O fume hood controls, Thermostats

22

Windy City 004352

1: White (N/A) 2: Orange 3: Black (N/A) 4: Red 5: Green 6: Yellow 7: Blue 8: Brown

8 Conductor, Shielded

1

Required for high-speed electric actuation. Must be wired as a home run or star configuration, not daisy-chained.

©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

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PROGRAMMABLE CONTROL MODULE: LONMARK - 9

TROUBLESHOOTING Controller is powered but does not turn on. Possible Cause

Remedial Action

Fuse has blown

Disconnect the power. Check the fuse integrity. Reconnect the power.

Power supply polarity

Verify that consistent polarity is maintained between all controllers and the transformer. Ensure that the 24 V COM terminal of each controller is connected to the same terminal on the secondary side of the transformer.

Controller cannot communicate on the LonWorks network. Possible Cause

Remedial Action

Absent or incorrect supply voltage

1. Check power supply voltage between 24 Vac/Vdc ±15% and 24 V COM pins and ensure that it is within acceptable limits. 2. Check for tripped fuse or circuit breaker.

Overloaded power transformer

Verify that the transformer used is powerful enough to supply all controllers.

Network not wired properly

Double check that the wire connections are correct.

Absent or incorrect network termination

Check network terminations.

Controller communicates well over a short network, but does not communicate on large network. Possible Cause

Remedial Action

Network length

Check the total wire length does not exceed the specifications in the echelon® document Junction Box and Wiring Guideline for Twisted Pair LonWorks Networks.

Wire type

Check the wire type agrees with the specifications in the echelon® document Junction Box and Wiring Guideline for Twisted Pair LonWorks Networks.

Network wiring problems

Double check that the wire connections are correct.

Absent or incorrect network termination

Check the network terminations. Incorrect or broken terminations will make the communication integrity dependent upon a controller's position on the network.

Extra capacitance

Make sure that no extra capacitance is being connected to the network other than the standard FTT circuit and a maximum of a 3 meter stub (in bus topology).

Number of controllers on network exceeds segement limit

The number of controllers on a channel should never exceed 64. Use a router or a repeater in accordance to specifications in the echelon® document Junction Box and Wiring Guideline for Twisted Pair LonWorks Networks.

Hardware input is not reading the correct value. Possible Cause

Remedial Action

Input wiring problem

Check that the wiring is correct according to this manual and according to the peripheral device's manufacturer.

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Open circuit or short circuit

Using a voltmeter, check the voltage on the input terminal. Short circuit (0 V) and open circuit (5 V).

Configuration problem

Use the controller configuration wizard, check the configuration of the input. Refer to the controller's user guide for more information.

Over-voltage or over-current at an input

An over-voltage or over-current at one input can affect the reading of other inputs. Respect the allowed voltage / current range limits of all inputs. Consult the PCM product datasheet for the input range limits of this controller.

Hardware output is not operating correctly. Possible Cause

Remedial Action

Auto-reset fuse has blown

Disconnect the power and outputs terminals. Then wait a few seconds to allow the auto-reset fuse to cool down. Check the power supply and the output wiring. Reconnect the power.

Output wiring problem

Check that the wiring is correct according to this manual and according to the peripheral device's manufacturer.

Configuration problem

Using the controller configuration wizard, check the configuration of the output. Refer to the PCM200/500 Programming Guide (MKT-0312).

0-10 V output, 24 Vac powered actuator is not moving.

Check the polarity of the 24 Vac power supply connected to the actuator while connected to the controller. Reverse the 24 Vac wire if necessary.

Status LEDs Rx/Tx LEDs Blink Pattern

Indication

RX LED not blinking

Data is not being received from the LonWorks data bus.

TX LED not blinking

Data is not being transmitted onto the LonWorks data bus.

Normal Operations Blink Pattern

Indication

One fast blink

The device is starting up.

Continuous fast blink

Firmware upgrade in progress. Do not interrupt power to the device during this time. Controller operation is temporarily unavailable.

The Status LED is always OFF

The controller is operating normally.

©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13

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MPC-1968

PROGRAMMABLE CONTROL MODULE: LONMARK - 11

Blink Patterns (repeat every 2 seconds, highest priority shown first) Blink Pattern

Indication

Continuous long

The controller is unconfigured. Appropriate action: Commission the controller.

Long Long Long

The controller is offline. Appropriate action: Set the controller Online.

Long Short Short Short

The controller is in bypass mode. Appropriate action: Set the controller Online.

Short Short Long

Poor-quality power; The device has browned-out: The voltage at the 24 Vac and 24 V COM terminals has gone below the device's acceptable limit during power up.

12 fast

Wink (the wink function is used to identify a device).

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©2009 Phoenix Controls. Specifications subject to change without notice. Rev. 12/13