Boundless ADDS 6700 Manual Page 158
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- DIN Controllers & Indicators - Product Manual
59305, Issue 7 – March 2014 Glossary Page 153
Scale Range Lower Limit Type: General Parameter
For linear inputs, this parameter can be used to display the process variable in engineering
units. It defines the displayed value when the process variable input is at its minimum value.
It is adjustable from -1999 to 9999 and can be set to a value more than (but not within 100
units of) the Scale Range Upper Limit, in which case the sense of the input is reversed.
For thermocouple and RTD inputs, this parameter is used to reduce the effective range of the
input. All span related functions, work from the trimmed span. The parameter can be
adjusted within the limits of the range selected by Configuration Mode parameter . It is
adjustable to within 100 degrees of the Scale Range Upper Limit.
Display code = , default value = 0 for linear inputs, or range minimum for temperature
inputs.
Also refer to Input Span, Process Variable and Scale Range Upper Limit.
Secondary Proportional Band Type: Controller Tuning Parameter
The portion of the input span over which the Secondary Output power level is proportional to
the process variable value. It may be adjusted in the range 0.0% (ON/OFF) to 999.9%. The
Control action for the Secondary Output is always the opposite of the Primary output.
The Secondary Proportional Band is only applicable when Dual Control Type is used.
Display value = , default value = 5.0%.
Also refer to Control Action, Control Type, On-Off Control, Input Span, Overlap/Deadband,
PID, Primary Proportional Band and Tuning.
Self-Tune Type: Controller Tuning Definition
Self-Tune continuously optimises tuning while a controller is operating. It uses a pattern
recognition algorithm, which monitors the process error (deviation). The diagram shows a
typical application involving a process start up, setpoint change and load disturbance.
Figure 44. Self-Tune Operation
The deviation signal is shown shaded and overshoots have been exaggerated for clarity.
The Self-Tune algorithm observes one complete deviation oscillation before calculating a set
of PID values. Successive deviation oscillation causes values to be recalculated so that the
controller rapidly converges on optimal control. When the controller is switched off, the final
PID terms remain stored in the controller's non-volatile memory, and are used as starting
values at the next switch on. The stored values may not always be valid, if for instance the
controller is brand new or the application has been changed. In these cases the user can
utilise Pre-Tune to establish new initial values.
Temperature
Setpoint 1
Setpoint Change
Load Disturbance
Time
Setpoint 2
- Warranty 5
- Limitations 5
- Contents Page Number: 6
- How to use this manual 14
- 1 Introduction 15
- 2 Installation 16
- 3 Plug-in Options 19
- 4 Wiring Instructions 25
- Use of Shielded Cable 26
- Noise Suppression at Source 26
- Connections and Wiring 28
- 5 Powering Up 40
- Displays 41
- LED Functions 41
- Select Mode 43
- Automatic Tune Mode 44
- Product Information Mode 45
- Lock Code View 47
- RSP value. Constrained 54
- Navigating in Operator Mode 59
- Manual Control Mode 62
- + ; 64
- by Scale Range 65
- Valve Position Clamping 78
- Parameter 86
- Parameter No 86
- Changing Parameter Values 103
- Entry into the Setup Mode 110
- Entry into Operator Mode 114
- Din Indicator Units Display 116
- Alarm Indications 116
- Multi-Point Scaling 117
- Tare Feature 117
- Bit Parameters 118
- Word Parameters 119
- Manually Fine Tuning 125
- Physical Layer 126
- Link Layer 127
- Device Addressing 128
- Supported Modbus Functions 128
- Function Descriptions 128
- Exception Responses 131
- 14 ASCII Communications 132
- Type 1 Message 133
- Type 2 Message 134
- Type 3 Message 134
- Error Response 135
- 15 Calibration Mode 136
- Recalibration Procedure 137
- 16 Appendix 1 – Glossary 138
- Type: General Parameter 139
- Figure 42. Alarm Operation 140
- , default value = 25% 142
- , Default value = 5 144
- . Default value = 5 144
- parameter 145
- ,default value = 147
- , default setting = .. 150
- to in 150
- , default setting = 150
- Type: Controller Parameter 151
- Type: Controller Definition 152
- Type: General Definition 153
- Type: General Parameter 155
- . It is 158
- , default value = 5.0% 158
- Universal Input 165
- DC Linear 167
- Auxiliary Inputs 168
- Digital Inputs 168
- Output Specifications 169
- Control Specifications 171
- Process Alarms 171
- Digital Communications 171
- Reference Conditions 172
- Operating Conditions 172
- Standards 172
- Physical Specifications 173
- Model Type 174
- Input Type 174
- Option Slot 1 174
- Option Slot 2 174
- Packing Options 176
- Special Variants 176
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