User manual JOHNSON CONTROLS DX-9100
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Manual abstract: user guide JOHNSON CONTROLS DX-9100
Detailed instructions for use are in the User's Guide.
[. . . ] FANs 636. 4, 1628. 4 Configuration Guides Section Configuration Guide Issue Date
0900
DX-9100 Configuration Guide
DX-9100 Extended Digital Plant Controller
· · Introduction Hardware Configuration
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Software Configuration
· · · · · · · · · · · · · · · · · · · · DX-9100 Software Elements Configuration Tools Configuring the Controller DX-9100 Controller Selection DX-9100 Global Data Configuration Number (Version 1. 1 or Later) Password Feature (Versions 1. 4, 2. 3, 3. 3, or Later) Analog Input Configuration Digital Input Configuration Analog Output Configuration Digital Output Configuration DO: Output Type Constants and Result Status Extension Module Configuration Network Analog Input Configuration (Version 3 Only) Network Digital Input Configuration (Version 3 Only) Network Analog Output Configuration (Version 3 Only) Network Digital Output Configuration (Version 3 Only) Programmable Function Module Configuration Control Algorithm Theory
* Indicates those sections where changes have occurred since the last printing. LIT-6364030
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www. johnsoncontrols. com
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Algorithm 01 - PID Control Module Algorithm 02 - On/Off Control Module Algorithm 03 - Heating/Cooling PID Control Module (Dual PID) Algorithm 04 - Heating/Cooling On/Off Control Module (Dual On/Off) Numerical Calculation and Other Function Module Configurations Algorithm 11 - Average Algorithm 12 - Minimum Select Algorithm 13 - Maximum Select Algorithm 14 - Psychrometric Calculation °C Algorithm 15 - Psychrometric Calculation °F Algorithm 16 - Line Segment Algorithm 17 - Input Selector Algorithm 18 - Calculator Algorithm 19 - Timer Functions Algorithm 20 - Totalization Algorithm 21 - Comparator Algorithm 22 - Sequencer Algorithm 23 - Four Channel Line Segment (Version 1. 1 or Later) Algorithm 24 - Eight Channel Calculator (Version 1. 1 or Later) Time Program Functions Time Schedule Configuration Optimal Start/Stop Configuration Programmable Logic Control Configuration Dial-up Feature with an NDM Trend Log (Versions 1. 4, 2. 3, 3. 3, or Later) Supervisory Mode Control Settings (General Module) Controller Diagnostics Power Up Conditions Download/ Upload Calibration Values
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65 78 86 98 107 107 109 111 113 116 119 121 123 125 129 133 136 152 154 156 157 161 174 *188 192 *195 204 204 *206 209
* Indicates those sections where changes have occurred since the last printing.
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Configuration Guides--DX-9100 Configuration Guide
Appendix A: SX Tool Item Description and Tables
· · · · Description of Items Item List Floating Point Numbers EEPROM Items
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Appendix B: Item Structure
· · · · · · · · · · · · · General Module Items Structure Programmable Function Module Items Structure Analog Input Module Items Structure Analog Output Module Items Structure Digital Output Module Items Structure Extension Module Items Structure Time Scheduling Items Structure Optimal Start/Stop Items Structure Network Information Module Items Structure Network Digital Output Module Items Structure Network Analog Output Module Items Structure Network Digital Input Module Items Structure Network Analog Input Module Items Structure
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Appendix C: Programmable Function Module Items
· · · · · · · · Algorithm 1 - PID Controller Algorithm 2 - On/Off Controller Algorithm 3 - Heating/Cooling PID Controller Algorithm 4 - Heating/Cooling On/Off Controller Algorithm 11 - Average Calculation Algorithm 12 - Minimum Selection Algorithm 13 - Maximum Selection Algorithm 14 - Psychrometric Calculation °C
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· · · · · · · · · ·
Algorithm 15 - Psychrometric Calculation °F Algorithm 16 - Line Segment Function Algorithm 17 - Input Selector Algorithm 18 - Calculator Algorithm 19 - Timer Function Algorithm 20 - Totalization Algorithm 21 - Eight Channel Comparator Algorithm 22 - Sequencer Algorithm 23 - Four Channel Line Segment Function Algorithm 24 - Eight Channel Calculator
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Appendix D: Logic Variables
· · Description of Logic Variables Logic Variable Tables
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Appendix E: Analog Items and Logic Variables for the Trend Log Module
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* Indicates those sections where changes have occurred since the last printing.
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Configuration Guides--DX-9100 Configuration Guide
DX-9100 Extended Digital Plant Controller
Introduction This document covers all three versions of the DX-9100 Extended Digital Controller, including the DX-912x LONWORKS® version. They include: Version 1 provides up to eight output modules, which are configured to give two analog outputs and six digital outputs (triacs). Version 2 provides six additional analog output modules, giving a total of eight analog outputs. [. . . ] To connect to the Input Variable Connection, enter the source addresses at Alg. Item Kn, (RI. 26-RI. 34).
High/Low Limits
The output of the module is limited by the high and low limits. Use these limits to keep the output within a reasonable range in case of the failure of an input.
Via the GX Tool
Select the maximum module on screen and then Data to call up the Data Window. Then enter the appropriate values in the High Limit and Low Limit fields. If the calculation > high limit, then NCM = high limit If the calculation < low limit, then NCM = low limit
Via the SX Tool
The module output can be limited by a low limit value entered at Alg. Item HIL (RI. 36).
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Notes
1. 2.
On the SX Tool, the output of the algorithm can be seen under Program Modules at Alg. The logical status of the algorithm can be seen on the SX Tool under Program Modules at PM Item PMnST (RI. 72) with following bit structure: X1 = 1 X2 = 1 NML NMH Calculated Output is at Low Limit. Calculated Output is at High Limit.
3.
The module can be put in Hold mode by entering the value 1 in PM Item PMnHDC (RI. 70) bit X1. (This can only be done via the PLC or SX Tool. ) Its numeric output (NCM) can be modified in the Hold mode by a BAS or SX Tool. As the maximum select output cannot be read at the DX front panel, it is recommended that this algorithm is used in the higher PM numbers, reserving the lower PM numbers for algorithms that can be displayed.
4.
Status Items can be used as logic (digital) connections using the GX Tool or SX Tool.
GX Labels Source Points (Outputs)
PMnHLD PMnNCM PMnNMH PMnNML
A 1 when the program module is in the Hold mode, being overridden by the SX Tool or a BAS. A 1 when the calculated output is equal to or greater than the numeric module high limit. A 1 when the calculated output is less than or equal to the numeric module low limit.
Destination Points (Inputs)
In@
Analog input connections to a programmable module.
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Configuration Guides--DX-9100 Configuration Guide
Algorithm 14 Psychrometric Calculation °C
Note: Only one Programmable Module within a DX controller may be configured as Algorithm 14 or 15. This Psychrometric algorithm provides two calculation channels, each with an output that is a function of two inputs, one representing humidity, and the other temperature.
Via the GX Tool
Function
Click on PM in the toolbar, select Numeric, then Psychrometric and position the module (box) on the screen. In the FUNCTION TYPE fields, enter a value describing the type of each of the two channels as follows: 0 1 2 3 = Disabled = Enthalpy calculation = Wet bulb calculation (Channel 1 only) = Dew point calculation (Channel 1 only)
Via the SX Tool
This algorithm is assigned to a programmable function module when the value 14 is configured in PM Item PMnTYP (RI. 00). Items FUN1 (RI. 02) or FUN2 (RI. 03) and define them as follows: X2X1 = 00 X2X1 = 01 X2X1 = 10 X2X1 = 11
Humidity and Temperature
Disabled Enthalpy calculation KJ/Kg Wet Bulb calculation (Channel 1 only) Dew Point calculation (Channel 1 only)
Next, define the analog input variables:
Via the GX Tool
Make connections between the source points and the destination points TEMP1@, HUMID1@, TEMP2@, and HUMID2@ as applicable for: Temperature Source Channel 1 Relative Humidity Source Channel 1 Temperature Source Channel 2 Relative Humidity Source Channel 2
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Via the SX Tool
TM1@ = Input variable connection for temperature value (T) - Channel 1 (RI. 10) RH1@ = Input variable connection for relative humidity value (F) - Channel 1 (RI. 11) TM2@ = Input variable connection for temperature value (T) - Channel 2 (RI. 12) RH2@ = Input variable connection for relative humidity value (F) - Channel 2 (RI. 13)
Atmospheric Pressure Via the GX Tool
Select the psychrometric module and then Data to call up the Data Window. 2 (mbar) fields, enter the atmospheric pressure (mbar) appropriate for your area.
Via the SX Tool
The atmospheric pressure (in mbar) can be specified for each channel at Alg. Item ATP1 (RI. 38) and ATP2 (RI. 55).
High/Low Limits
The output of the module is limited by the high and low limits. Use these limits to keep the output within a reasonable range in case of the failure of an input.
Via the GX Tool
Select the psychrometric module and then Data to call up the Data Window. If the calculation > high limit, then NCM = high limit If the calculation < low limit, then NCM = low limit
Via the SX Tool
The module output can be limited by a low limit value entered at Alg. Item HIL (RI. 36 and 53).
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Configuration Guides--DX-9100 Configuration Guide
Notes
1. 2.
On the SX Tool, the output of each channel can be seen under Program Modules at Alg. [. . . ] Tag
X0-4 Y0-4 X1-4 Y1-4 X2-4 Y2-4 X3-4 Y3-4 NCM1 NCM2 NCM3 NCM4
Description
Channel 4 Input Break Point Channel 4 Output Break Point Channel 4 Input Break Point Channel 4 Output Break Point Channel 4 Input Break Point Channel 4 Output Break Point Channel 4 Input Break Point Channel 4 Output Break Point Output Channel 1 Output Channel 2 Output Channel 3 Output Channel 4 Hold Mode Control/Status 0 0 0 0 X4 X3 X2 X1 X1 = 1 Hold Channel 1 X2 = 1 Hold Channel 2 X3 = 1 Hold Channel 3 X4 = 1 Hold Channel 4 0 0 1 1 2 2 3 3
HLD1 HLD2 HLD3 HLD4
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Algorithm 24 Eight Channel Calculator
Table 63: Algorithm 24 Eight Channel Calculator (DX-9100 Version 1. 1 or Later)
RI.
00 02
PM Tag
PMnTyp PMnF1
Alg. Tag
TYP FUN1 0 0 0 X3 X2 X1
Description
Algorithm Type = 24 Function Channel 1 0 0 X3 X2 X1 = 000 = 001 = 010 = 011 = 100 = 101 = 110
Disabled Addition Subtraction Multiplication Division Minimum Maximum as FUN1 as FUN1 as FUN1 as FUN1 as FUN1 as FUN1 as FUN1
03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
PMnF2 PMnF3 PMnF4 PMnF5 PMnF6 PMnF7 PMnF8 PMnI1@ PMnI2@ PMnI3@ PMnI4@ PMnI5@ PMnI6@ PMnI7@ PMnI8@ PMnI9@ PMnI10@ PMnI11@ PMnI12@ PMnI13@ PMnI14@ PMnI15@ PMnI16@
FUN2 FUN3 FUN4 FUN5 FUN6 FUN7 FUN8 I1-1@ I2-1@ I1-2@ I2-2@ I1-3@ I2-3@ I1-4@ I2-4@ I1-5@ I2-5@ I1-6@ I2-6@ I1-7@ I2-7@ I1-8@ I2-8@
Function Channel 2 Function Channel 3 Function Channel 4 Function Channel 5 Function Channel 6 Function Channel 7 Function Channel 8
Input Connection 1 Channel 1 Input Connection 2 Channel 1 Input Connection 1 Channel 2 Input Connection 2 Channel 2 Input Connection 1 Channel 3 Input Connection 2 Channel 3 Input Connection 1 Channel 4 Input Connection 2 Channel 4 Input Connection 1 Channel 5 Input Connection 2 Channel 5 Input Connection 1 Channel 6 Input Connection 2 Channel 6 Input Connection 1 Channel 7 Input Connection 2 Channel 7 Input Connection 1 Channel 8 Input Connection 2 Channel 8
Continued on next page . PM Tag (Cont. )
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 60 61 62 63 64 65 66 67 70 PMnK1 PMnK2 PMnK3 PMnK4 PMnK5 PMnK6 PMnK7 PMnK8 PMnK9 PMnK10 PMnK11 PMnK12 PMnK13 PMnK14 PMnK15 PMnK16 PMnOU1 PMnOU2 PMnOU3 PMnOU4 PMnOU5 PMnOU6 PMnOU7 PMnOU8 PMnHDC
Alg. Tag
K1-1 K2-1 K1-2 K2-2 K1-3 K2-3 K1-4 K2-4 K1-5 K2-5 K1-6 K2-6 K1-7 K2-7 K1-8 K2-8 NCM1 NCM2 NCM3 NCM4 NCM5 NCM6 NCM7 NCM8
Description
Constant 1 Channel 1 Constant 2 Channel 1 Constant 1 Channel 2 Constant 2 Channel 2 Constant 1 Channel 3 Constant 2 Channel 3 Constant 1 Channel 4 Constant 2 Channel 4 Constant 1 Channel 5 Constant 2 Channel 5 Constant 1 Channel 6 Constant 2 Channel 6 Constant 1 Channel 7 Constant 2 Channel 7 Constant 1 Channel 8 Constant 2 Channel 8 Output Channel 1 Output Channel 2 Output Channel 3 Output Channel 4 Output Channel 5 Output Channel 6 Output Channel 7 Output Channel 8 Hold Mode Control/Status X8 X7 X6 X5 X4 X3 X2 X1 X1 = 1 Hold Channel 1 X2 = 1 X3 = 1 X4 = 1 X5 = 1 X6 = 1 X7 = 1 X8 = 1 Hold Channel 2 Hold Channel 3 Hold Channel 4 Hold Channel 5 Hold Channel 6 Hold Channel 7 Hold Channel 8
HLD1 HLD2 HLD3 HLD4 HLD5 HLD6 HLD7 HLD8
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Appendix D: Logic Variables
Description of Logic Variables The DX-9100 contains logic variables, representing the individual bits in status Items. [. . . ]
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