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Honeywell DCP 50 Product Manual
Honeywell DCP 50 Product Manual

Honeywell DCP 50 Product Manual

Digital controller programmer

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DCP 50
Digital Controller Programmer
Product Manual
57-77-25-17
3/00
Sensing and Control

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Table of Contents
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Summary of Contents for Honeywell DCP 50

  • Page 1 DCP 50 Digital Controller Programmer Product Manual 57-77-25-17 3/00 Sensing and Control...
  • Page 2 Revision – 3/00 WARRANTY/REMEDY Honeywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Contact your local sales office for warranty information. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace without charge those items it finds defective.
  • Page 3: About This Document

    About This Document Abstract The purpose of this manual is to support the installation, configuration, and operation of the DCP 50 Digital Controller Programmer. Contacts World Wide Web The following lists Honeywell’s World Wide Web sites that will be of interest to our customers.
  • Page 5: Table Of Contents

    HONEYWELL DCP 50 DIGITAL CONTROLLER/PROGRAMMER PRODUCT MANUAL CONTENTS BASE MODE DISPLAY SEQUENCE - NO PROGRAM RUNNING STARTING A PROGRAM PUTTING A PROGRAM IN HOLD RELEASING A PROGRAM FROM HOLD ABORTING A PROGRAM DISPLAY SEQUENCE - PROGRAM RUNNING RaPID CONTROL FEATURE...
  • Page 6 CONNECTIONS AND WIRING PROGRAM DEFINITION MODE - CREATING/EDITING A PROGRAM ENTRY CREATING A PROGRAM DEFAULT VALUES AND ADJUSTMENT RANGES EXIT FROM PROGRAM DEFINE MODE CONTROLLER SET-UP MODE PARAMETER DETAILS EXIT FROM CONTROLLER SET-UP MODE MODBUS COMMUNICATIONS INTRODUCTION MODBUS FUNCTIONS SUPPORTED MESSAGE FORMATS PARAMETER NUMBERS PROFILER STATUS BYTE...
  • Page 7 INTERNAL LINKS AND SWITCHES REMOVING THE CONTROLLER PROGRAMMER FROM ITS HOUSING REMOVING/REPLACING THE OUTPUT 2/OUTPUT 3 OPTION PCBs REMOVING/REPLACING THE RS485 COMMUNICATIONS OPTION PCB OR REMOTE RUN/HOLD OPTION PCB REPLACING THE INSTRUMENT IN ITS HOUSING SELECTION OF INPUT TYPE AND OUTPUT 1 TYPE OUTPUT 2 TYPE/OUTPUT 3 TYPE PRODUCT CODES PRODUCT SPECIFICATION...
  • Page 8: Base Mode

    BASE MODE DISPLAY SEQUENCE - NO PROGRAM RUNNING...
  • Page 9: Starting A Program

    STARTING A PROGRAM To start a program running: PUTTING A PROGRAM IN HOLD A program can be put in Hold (i.e. frozen) at any time whilst it is running. The program setpoint will stay at its value at the instant the program entered Hold until the program is released (see Subsection 1.4) or aborted (see Subsection 1.5).
  • Page 10: Aborting A Program

    ABORTING A PROGRAM To abort the current-running (or held) program, hold down the key for 5 seconds. The program will be aborted, the indicator will go OFF and the normal Controller functions will be resumed. NOTE: When a program is aborted, the instrument returns to the Controller setpont value.
  • Page 11: Rapid Control Feature

    RaPID CONTROL FEATURE The RaPID control feature may be used when extra fast responses and minimum overshoot are required. The RaPID feature works best when PID terms are well-tuned; therefore, it is recommended that the Pre-Tune feature (see Subsection 1.8) is run before the RaPID feature is engaged.
  • Page 12: Engaging Both Pre-Tune And Rapid Features

    NOTE: The Pre-Tune facility will not engage if (a) a program is currently running, (b) the process variable is within 5% of input span of the setpoint, or (c) an erroneous key sequence is used. Pre-Tune is a single-shot process which automatically dis-engages itself when completed.
  • Page 13: Viewing The Hardware Definition Code

    The responses to Pre-Tune being dis-engaged (manually or automatically) are: RaPID Status Response Indication Not operational. Pre-Tune dis-engaged, normal indicator goes OFF. control resumed. Operational. Pre-Tune dis-engaged, RaPID indicator goes ON. control resumed. 1.11 VIEWING THE HARDWARE DEFINITION CODE NOTE: An automatic return is made to the normal Base Mode display after 30 seconds.
  • Page 14: Manual Control

    1.12 MANUAL CONTROL In Base Mode, with no program running or held, Manual Control may be selected as follows: The lower display shows the output power in the form Pxxx (xxx is in the range 000% to 100% of maximum output power). This may be adjusted using the Up and Down keys. To return to automatic control:...
  • Page 15: Installation

    INSTALLATION UNPACKING PROCEDURE 1. Remove the Controller from its packing. The Controller is supplied with a panel gasket and push-fit fixing strap. Retain the packing for future use, should it be necessary to transport the Controller to a different site or to return it to the supplier for repair/testing. 2.
  • Page 16: Connections And Wiring

    The procedure to panel-mount the Controller Programmer is shown in Figure 2-3. CAUTION: Do not remove the panel gasket, as this may result in inadequate clamping of the instrument in the panel. NOTE: When installing several Programmer Controllers side-by-side in one cut-out, use the ratchets on the top/bottom faces.
  • Page 17 Figure 2-4 Rear Terminal Connections...
  • Page 18: Thermocouple Input

    2.3.1 Mains (Line) Input The Controller will operate on 96 - 264V AC 50/60Hz mains (line) supply. The power consumption is approximately 4 VA. Power should be connected via a two-pole isolating switch (preferably situated near the equipment) and a 1A fuse. If the Controller has relay outputs in which the contacts are to carry mains (line) voltage, it is recommended that the relay contact mains (line) supply should be switched and fused in a similar manner but should be separate from the Controller...
  • Page 19: Relay Outputs

    2.3.5 Linear Inputs For linear mA input ranges, connection is made to Terminals 4 and 6 in the polarity shown in Figure 2-4. For linear mV and V ranges, connection is made to Terminals 4 and 5 in the polarity shown in Figure 2-4. For details of the linear input ranges available, refer to Appendix A.
  • Page 20 2.3.9 AC SSR Outputs These outputs provide up to 1A AC drive with a longer lifetime than an electromechanical relay. For further details, refer to Appendix A. 2.3.10 DC Outputs See Appendix A. 2.3.11 RS485 Serial Communications Link The cable used should be suitable for data transfer at the selected rate (1200, 2400, 4800 or 9600 Baud) over the required distance.
  • Page 21: Program Definition Mode - Creating/Editing A Program

    PROGRAM DEFINITION MODE - CREATING/EDITING A PROGRAM NOTE: Program editing/creation is not possible whilst any program is running or held. ENTRY In Base Mode, select the required Program Number (see Subsection 1.1), then: NOTE: If the Program Define Mode lock code has been set to 0, pressing the SET UP key in Step 2 will give direct access to Program Define Mode;...
  • Page 22: Creating A Program

    CREATING A PROGRAM A program is created in two steps: 1. Define the segments of your program; the parameters used depend on what Program Mode has been configured - Rate Mode (see Subsection 3.2.2) or Time Mode (see Subsection 3.2.3). The segment definitions determine whether the selected segment is a Ramp Segment, a Dwell (soak) Segment or an End Segment.
  • Page 23 3.2.2 Defining Segments - Rate Mode...
  • Page 24 3.2.3 Defining Segments - Time Mode...
  • Page 25 3.2.4 Program Options...
  • Page 26 3.2.5 Guaranteed Soak Band The Guaranteed Soak Band is applicable to sOAK segments only and operates as follows (depending on whether Guaranteed Soak has been enabled or Manual Guaranteed Soak has been configured):...
  • Page 27 3.2.6 Segment Event Status For every segment in a program there is an event indicator. This may be set ON or OFF for that segment. The status for the segments in the currently-selected program appears in the following form in the upper display: The first display shows the current event status for Segments 1 - 8 and the second display shows the current event status for Segments 9 - 16.
  • Page 28 included.. The lower display shows the current segment number. Thus, the key sequence to define the event markers for Segments 1 - 8 could be: Pressing the SET UP key would then display the event markers for Segments 9 - 16 (as applicable), which could be defined in a similar manner.
  • Page 29: Default Values And Adjustment Ranges

    DEFAULT VALUES AND ADJUSTMENT RANGES Parameter Range Minimum Range Maximum Default Ramp Rate 0 = Soak segment 9999, then INF -1 = End segment Final (End of Ramp) Range Minimum Range Maximum Range Minimum Setpoint Segment Time 00:00 99:59 01:00 Number of Cycles 9999 then INF Guaranteed Soak...
  • Page 30: Controller Set-Up Mode

    CONTROLLER SET-UP MODE In this mode, the parameters which define the operation of the controller are defined. Controller Set-Up Mode can be entered (whether or not there is a program currently running) as follows: NOTES: 1. If the Controller Set-Up Mode lock code has been set to 0, pressing the SET UP key in Step 2 will give direct access to Controller Set-Up Mode;...
  • Page 31 Upon entry into Controller Set-Up Mode, the first in a sequence of controller parameters will be displayed. The operator may then step through the parameter sequence using the SET UP key, adjusting the setting/value of each displayed parameter using the Up/Down keys. The parameter sequence is as follows:...
  • Page 32: Parameter Details

    NOTES 1. Not operative if Proportional Band = 0. 2. Switching differential for ON/OFF control output. 3. Optional; only one legend will appear for each alarm. 4. Only applicable if a DC linear input is fitted. 5. Only applicable if Output 2 is fitted as a secondary control (COOL) output.
  • Page 33 Parameter Function Adjustment Range Default value ON/OFF Switching differential for one output or 0.1% to 10.0% of 0.5% Differential both outputs set to ON/OFF control (PB1, input span PB2 or both = 0) - see Figure 4-1. Setpoint Lock Enables/disables setpoint (SP) OFF - SP adjustable adjustment in Base Mode.
  • Page 34 Parameter Function Adjustment Range Default value Process High If Alarm 2 is a Process High Alarm, the Input Range Minimum Input Range Alarm 2 value of the process variable at or to Input Range Maximum above which Alarm 2 will be active Maximum (see Figure 4-2) Process Low...
  • Page 35 Figure 4-1 Proportional Band and Overlap/Deadband...
  • Page 36 Figure 4-2 Alarm Operation...
  • Page 37 Figure 4-3 Alarm Hysteresis Operation...
  • Page 38: Exit From Controller Set-Up Mode

    EXIT FROM CONTROLLER SET-UP MODE A return will then be made to the normal Base Mode display.
  • Page 39: Modbus Communications

    MODBUS COMMUNICATIONS INTRODUCTION This Section specifies the MODBUS communications protocol as implemented on the Controller Programmer. Certain restrictions have been imposed upon this implementation: (i) Baud rates may be set to 1200, 2400, 4800 and 9600 only (ii) Support for multi-parameter Writes is limited to support of the Multi-word Write Function (Number 16) but will permit writing of one parameter only per message (iii) The multi-parameter Read function supports a maximum of 10 parameters...
  • Page 40: Message Formats

    MESSAGE FORMATS The first character of every message is an instrument address. The valid range of such an address is 0 to 255. The second character is always the Function Number. The contents of the remainder of the message depends upon the function number. In most cases the instrument is required to reply by echoing the address and function number, together with an echo of all or part of the message received (in the case of a request to write a value or carry out a command) or the information requested (in...
  • Page 41 This function will be used largely to report controller status information, and so a bit set to 1 indicates that the corresponding feature is currently enabled/active, and a bit reset to 0 indicates the opposite. If an exact multiple of eight bits is not requested, the data is padded with trailing zeros to preserve the 8-bit format.
  • Page 42 Preset Single Register (Write 1 Word) The message sent to the controller consists of 8 bytes: the address and function number as usual, the address of the parameter to be written, and the two-byte value to which the parameter will be set, and finally the CRC16. The normal response is to echo the message in its entirety.
  • Page 43 Error and Exception Responses If the controller receives a message which contains a corrupted character (parity check fail, framing error etc), or if the CRC16 check fails, the controller ignores the message. If the message is otherwise syntactically flawed (e.g. the byte count or word count is incorrect) the controller will also not reply.
  • Page 44 i. Because the bit-order is reversed, the binary pattern is reversed also, making the MSB the rightmost bit, and ii. Because only the remainder is of interest, the MSB (the right-most bit) may be discarded. This means the polynomial has the value Hex A001. The CRC algorithm is as follows:...
  • Page 45: Parameter Numbers

    PARAMETER NUMBERS The parameter numbering system, in order to conform to the CNOMO standard, splits parameters into BITS and WORDS and numbers each group independently. Bit Parameters (Controller Status Byte) There are a maximum of sixteen of these: Parameter Notes Communications Write Status Read only - 1 = enabled, 0 = disabled Auto/Manual Control...
  • Page 46 Word Parameters Parameter Notes Controller Parameters Process Variable Read only Setpoint Current setpoint, if ramping Output Power Read only, unless in Manual Control Arithmetic Deviation Read only Proportional Band 2 Proportional Band 1 Controller Status Reset Rate Output 1 Cycle Time Scale Range Low Read only if non-linear input Scale Range High...
  • Page 47 Parameter Notes Current Program Number Read only Current Segment Number Read only in current running/held program Segment Time Remaining Read only Profiler Commands Write only - see Subsection 5.6. Power Fail Recovery 0 = Cold start, 1 = Warm start Guaranteed Soak Type 0 = disabled, 1 = enabled, 2 = manual Cycles Remaining...
  • Page 48 Parameter Notes 1236 Time values Segment 1 at address 1236 ⇓ Segment 16 at address 1251 1251 1252 Event Marker settings Bit 0 = Event 16 ⇒ Bit 15 = Event 1 Segment Parameters - Program 3 1300 Run Program (value = Delayed Start value) Write only 1301 No.
  • Page 49: Profiler Status Byte

    The values read will in all cases be undefined. It is the user’s responsibility to make sure that values read reflect a possible state of the instrument. PROFILER STATUS BYTE The Profiler Status byte has the following format: PROFILER COMMANDS The Profiler Commands are as follows: 0001 Manually hold currently-running program...
  • Page 50: Configuration Mode

    CONFIGURATION MODE ENTRY INTO CONFIGURATION MODE Figure 6-1 Entry into Configuration Mode NOTE: Changes to the value/setting of certain Configuration Mode parameters (e.g. input range, output use and type) will cause the Set Up Mode parameters to be automatically set to their default values the next time Set Up Mode is entered (see also beginning of Section 4).
  • Page 51 Figure 6-2 Hardware Definition Code - Access and Adjustment...
  • Page 52: Option Selection

    Table 6-1 Hardware Definition Code - Input/Output Type Selection Value Input RTD/ Thermo- Linear Linear Linear couple DC mA DC V Output Relay Solid Drive 0 - 10V 0 - 20mA 0 - 5V 4 - 20mA State Output Relay Solid fitted Drive...
  • Page 53: Configuration Mode Parameters

    Figure 6-3 Option Selection CONFIGURATION MODE PARAMETERS Parameter Identifier Description Input A four-digit code (see Appendix B). Default settings: Range Thermocouple - 1419 (Type J, 0 - 761°C) RTD/Linear mV - 7220 (RTD Pt100 0 - 800°C) Linear mA - 3414 (4 - 20mA) Linear V - 4446 (0 - 10V) Output...
  • Page 54 Parameter Identifier Description Alarm 2 Process High Alarm Type Process Low Alarm (default) Deviation Alarm Band Alarm No alarm Alarm No alarms inhibited Inhibit Alarm 1 inhibited Alarm 2 inhibited Both Alarm 1 & Alarm 2 inhibited Program Rate Mode Time...
  • Page 55 Parameter Identifier Description Output Output 2 secondary control (COOL) output Usage Alarm 2 hardware output, direct-acting. Avail- able only if relay/DC Pulse/AC SSR output. Alarm 2 hardware output, reverse-acting. Avail- able only if relay, DC Pulse or AC SSR output. Direct-acting output for Logical OR of Alarm 1 and Alarm 2.
  • Page 56 Parameter Identifier Description Output Alarm 1 hardware output, direct-acting. Avail- able only if relay/DC Pulse/AC SSR output. Usage Alarm 1 hardware output, reverse-acting. Avail- able only if relay, DC Pulse or AC SSR output. Direct-acting output for Logical OR of Alarm 1 and Alarm 2.
  • Page 57 Parameter Identifier Description ∆ & ∇ LEDs Usage Ramp direction: (on Front Panel) ∆ = positive ramp ∇ = negative ramp both = dwell Output state: ∆ = Output 1 ON ∇ = Output 2 ON Guaranteed Enabled Soak Enable/Disable Disabled (see Subsection 3.2.5)
  • Page 58: Exit From Configuration Mode

    Parameter Identifier Description Cold Junction Enabled (default) Compensation Enable/Disable* Disabled Controller Set-Up Read Only display of current four-digit Set Up Mode Mode Lock Code Lock Code. Program Define Read Only display of current four-digit Program Mode Lock Code Define Mode Lock Code. * Appears only if a thermocouple input is selected (see Hardware definition Code).
  • Page 59: Internal Links And Switches

    INTERNAL LINKS AND SWITCHES REMOVING THE CONTROLLER PROGRAMMER FROM ITS HOUSING WARNING ! Before removing the instrument from its housing, ensure that all power has been removed from the rear terminals. Disregard for these instructions may cause injury or death! To withdraw the instrument from its housing, simply grip the side edges of the front panel (there is a finger grip on each edge) and pull the instrument forwards.
  • Page 60 Figure 7-2 Removing the Output 2/Output 3 Option PCBs...
  • Page 61: Removing/Replacing The Rs485 Communications Option Pcb Or Remote Run/Hold Option Pcb

    REMOVING/REPLACING THE OUTPUT 2/OUTPUT 3 OPTION PCBs With the instrument removed from its housing: 1. Gently push the rear ends of the CPU PCB and Power Supply PCB apart slightly, until the two tongues on each of the Output 2/Output 3 Option PCBs become dis-engaged - see Figure 7-2B;...
  • Page 62: Selection Of Input Type And Output 1 Type

    Figure 7-3 Removing the RS485 Communications Option PCB or the Remote Run/Hold Option PCB SELECTION OF INPUT TYPE AND OUTPUT 1 TYPE The selection of input type and Output 1 type is accomplished on link jumpers on the CPU PCB. The CPU PCB may be either of two forms: (a) for a relay, solid state or SSR drive Output 1 (see Figure 7-4) or for a DC Output 1 (see Figure 7-5).
  • Page 63 Figure 7-4 CPU PCB (Relay/SSR Drive/Solid State Output 1) Figure 7-5 CPU PCB (DC Output 1) 7.5.2 Primary Output (Output 1) Type Table 7-2 Selection of Output 1 Type The required type of Output 1 is selected by Link Jumpers LJ4, LJ5, LJ6 Output 1 Type Link Jumpers Fitted and LJ7 on the Relay/SSR Drive/Solid...
  • Page 64: Output 2 Type/Output 3 Type

    OUTPUT 2 TYPE/OUTPUT 3 TYPE The type of output for Output 2 and Output 3 is determined by the Option PCB fitted in the appropriate position (see Figure 7-1) and, in the case of the DC Output Option PCB being fitted, the setting of Link Jumpers LJ8 and LJ9 on that Option PCB (see Figure 7-6 and Table 7-3).
  • Page 65 APPENDIX A PRODUCT CODES INSTRUCTIONS Select the desired key number. The arrow to the right marks the selections available. Make one selection from each of Tables I through V using the column below the appropriate arrow. An asterisk denotes unrestricted availability. A letter denotes restricted availability.
  • Page 66 Additional Literature Description Ref. Availability Product Manual for Digital Controller English 57-77-25-17 Programmer Upgrade Kits Ref. Availability Relay Output PWA 46189010-501 SSR Output PWA 46189011-501 Linear Output PWA 46189012-501 RS485 Comms. PWA I 46189013-501 Remote Run/Hold PWA I 46189014-501 I Mutually exclusive INPUT TYPE (User selectable) Input ranges available (selectable from front panel): Thermocouple Inputs: Type...
  • Page 67 RTD Inputs: Input Range Displayed Code Input Range Displayed Code 0 - 800°C * 7220 0.0 - 100.9°C 2295 32 - 1471°F 7221 32.0 - 213.6°F 2296 2229 2297 32 - 571°F -200 - 206°C 2230 2298 -100.9 - 100.0°C -328 - 402°F 2231 7222...
  • Page 68 OUTPUT 2 TYPE (CONTROL 2 OR ALARM 2) Code Description Notes Not fitted Relay Control 2 or Alarm 2 SSR Drive Control 2 or Alarm 2 Linear (4 - 20mA factory-set) Control 2 only Solid state Control 2 or Alarm 2 OUTPUT 3 TYPE (ALARM 1 OR RE-TRANSMITTED OUTPUT) Code Description...
  • Page 69: Product Specification

    APPENDIX B PRODUCT SPECIFICATION UNIVERSAL INPUT General Maximum per Controller: Input Sample Rate: Four samples/second Digital Input Filter: Time constant selectable from front panel - 0.0 (i.e. OFF), 0.5 to 100.0 seconds in 0.5-second increments. Input Resolution: 14 bits approximately; always four times better than display resolution.
  • Page 70 Type Input Range Dislayed Code Type Input Range Displayed Code 1815 1934 0.0 - 205.7°C 211 - 3315°F 1816 1938 32.0 - 402.2°F 100 - 1824°C 1817 5371 0 - 450°C 0 - 1399°C 1818 5324 32 - 841°F 32 - 2550°F 1819 C/W5 1541...
  • Page 71 Ranges Selectable from Front Panel: DC Linear: Input Range Displayed Code Input Range Displayed Code 0 - 20mA 3413 0 - 5V 4445 4 - 20mA * 3414 1 - 5V 4434 0 - 50mV 4443 0 - 10V * 4446 10 - 50mV 4499...
  • Page 72 Maximum Input Delay 1 second (OFF-ON): Minimum Input Delay 1 second (ON-OFF): OUTPUT 1 General Types Available: Relay (as standard), DC Pulse, AC SSR and DC as options. Relay Contact Type: Single pole double throw (SPDT). Rating: 2A resistive at 120/240V AC. Lifetime: >500,000 operations at rated voltage/current.
  • Page 73 Max. ON-State Voltage Drop 1.5V peak. @ Rated Current: Repetitive Peak OFF-state 600V minimum Voltage, Vdrm: DC Analog Resolution: Eight bits in 250mS (10 bits in 1 second typical, >10 bits in >1 second typical). Update Rate: Every control algorithm execution. Ranges: 0 - 20mA 4 - 20mA...
  • Page 74 DC Pulse/TTL Drive Capability: SSR >4.2V DC into 1k minimum. Ω Isolation: Not isolated from input or other SSR outputs. AC SSR Operating Voltage Range: 20 - 280Vrms (47 - 63Hz) Current Rating: 0.01 - 1A (full cycle rms on-state @ 25°C); derates linearly above 40°C to 0.5A @ 80°C.
  • Page 75 0 - 10V: 500 minimum Ω 0 - 5V: 500 minimum Ω Isolation: Isolated from all other inputs and outputs. Range Selection Method: Link jumper or DIP switch and front panel code. OUTPUT 3 General Types Available: Relay, DC Pulse, DC linear (Recorder Output only) Relay Contact Type:...
  • Page 76 Load Impedance: 0 - 20mA: 500 maximum Ω 4 - 20mA: 500 maximum Ω 0 - 10V: 500 minimum Ω 0 - 5V: 500 minimum Ω Isolation: Isolated from all other inputs and outputs. Range Selection Method: Link jumper or DIP. LOOP CONTROL Automatic Tuning Types: Pre-Tune...
  • Page 77 Combinatorial Alarms: Logical OR or AND of alarms to an individual hardware output is available. PERFORMANCE Reference Conditions Generally as EN60546-1. Ambient Temperature: 20°C ±2oC Relative Humidity: 60 - 70% Supply Voltage: 90 - 264V AC 50Hz  Source Resistance: <10 for thermocouple input Ω...
  • Page 78 RTD Inputs Measurement Accuracy: ±0.25% of span ±1LSD Better than ±0.2°C any point, any 0.1°C range Linearisation Accuracy: (±0.05°C typical). Better than ±0.5°C any point, any 1°C range. DC Outputs - Accuracy Output 1: ±0.5% (mA @ 250 , V @ 2k );...
  • Page 79 Supply Voltage Influence: Negligible. Relative Humidity Influence: Negligible Sensor Resistance Influence: Thermocouple 100 : <0.1% of span error Ω Thermocouple 1000 : <0.5% of span error Ω RTD Pt100 50 /lead: <0.5% of span error Ω ENVIRONMENTAL Operating Conditions: PERFORMANCE Approvals: CE, UL, cUL EMI Susceptibility:...
  • Page 80 APPENDIX C SUMMARY OF DISPLAYS The lower display on the Controller Programmer front panel is used to identify the parameter being displayed. The parameter identifiers are as follows: Legend Meaning Section Base Mode Parameters 1.12 Manual Power (xxx = power output value) Setpoint Delayed Start Final (Target) Setpoint for Segment xx (01 - 16)
  • Page 81 Legend Meaning Section Recorder Output Scale Maximum Recorder Output Scale Minimum Output Power Maximum Output 1 Cycle Time Output 2 Cycle Time Process High Alarm 1 value Process Low Alarm 1 value Deviation Alarm 1 value Band Alarm 1 value Alarm 1 Hysteresis value Process High Alarm 2 value Process Low Alarm 2 value...
  • Page 82 Legend Meaning Section 3.2.4 Timebase (hours/minutes or minutes/seconds) 3.2.4 Guaranteed Soak Band value 3.2.4 Event Marker setting for Segment xx Configuration Mode Parameters Hardware Definition Code Hardware Option selection Input Type selection Control Action Alarm 1 Type Alarm 2 Type Alarm Inhibit Program Mode (Rate or Time) Output 2 Usage...
  • Page 83 ALPHABETICAL INDEX Communications Baud Rate Selection of Aborting a Program Communications Protocol Active Program Setpoint Selection of Display of Configuration Mode Alarm 1 Hysteresis 4-4 Entry into Alarm 1 Status Exit from Display of 1-1, Control Mode Alarm 1 Type Display of 1-1, Alarm 2 Hysteresis 4-5...
  • Page 84 Error Responses Input Connections Event Markers Linear input Defining Remote Run/Hold input Event Output Status Display of 1-1, Thermocouple Exception Codes Input Filter Time Constant Exception Responses Input Range Input Type Selection of Integral Time Constant Final Setpoint Display of Fuse Rating 24V AC/DC supply LEDs Usage...
  • Page 85 Manual Guaranteed Soak Description of Manual Reset Panel-mounting Message formats Procedure Message termination Panel-Mounting Cut-out dimensions (multiple installation) Cut-out dimensions (single installation) 2-1 Number of Cycles Maximum panel thickness Defining Programmer/Controller dimensions Panel-mounting the ON/OFF Differential Programmer/Controller Description of PCB Positions Option Selection Power Loss Recovery Output 1 Action...
  • Page 86 Programmer Status Byte 5-11 Sensor Break Proportional Band Effect on outputs (DC linear inputs) Description of Effect on outputs Proportional Band 1 (RTD inputs) Proportional Band 2 Effect on outputs (thermocouple inputs) Serial Communications Connections RaPID Control Setpoint Adjustment (in Base Mode) Dis-engaging Enabling/disabling RaPID Control Status...
  • Page 98 Sensing and Control Honeywell 11 West Spring Street Freeport, IL 61032 www.honeywell.com/sensing 57-77-25-17 0300 Printed in USA...

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