Loading…
Loading…
Name | ID | Label | Description | Type | Access | Class |
---|---|---|---|---|---|---|
sp_initial | 4022 | Initial Supply Pressure | Initial Supply Pressure is the supply air pressure that was measured when Auto Setup was carried out. | R | Float | 0 |
spring_range_high | 4023 | Spring Range High | Spring range high pressure | R | Float | 0 |
spring_range_low | 4024 | Spring Range Low | Spring range low pressure | R | Float | 0 |
drive_signal_range_high | 4025 | Drive Sig Range High | R | Float | 0 | |
drive_signal_range_low | 4026 | Drive Sig Range Low | R | Float | 0 | |
drive_signal_pn_gain | 4027 | Drive Sig-Pn Gain | Drive signal vs nozzle back pressure gain | R | Float | 0 |
drive_signal_pn_intercept | 4028 | Drive Sig-Pn Intercept | Drive signal vs nozzle back pressure intercept | R | Float | 0 |
using_operator | 4029 | Using Operator | R | Enum | 2 | |
actuator_type | 402A | Actuator Type | Linear : The AVP700 is used for a linear motion control valve. Rotary/90 deg : The AVP700 is used for a rotary motion control valve with a 90 degree rotation. The VTD and valve stem rotate in the same direction. Rotary/other : The AVP700 is used for a rotary motion control valve with a range of rotation other than 90 degrees. The VTD and valve stem rotate in the same direction. Rotary (sub)/90 deg : The AVP700 is used for a rotary motion control valve with a 90 degree rotation. The VTD and valve stem rotate in opposite directions. Rotary (sub)/other : The AVP700 is used for a rotary motion control valve with a range of rotation other than 90 degrees. The VTD and valve stem rotate in opposite directions. | R/W | Enum | 0 |
valve_closed_position | 402B | Valve Closed Position | Feedback Lever Up : The feedback lever of the AVP700 goes up when the valve is in the closed position. Feedback Lever Down : The feedback lever of the AVP700 goes down when the valve is in the closed position. | R/W | Enum | 0 |
booster_relay | 402C | Booster Relay | The AVP700 changes its control parameter depending on whether there is a booster relay in the pneumatic piping of the control valve system. Select the appropriate option. | R/W | Enum | 0 |
fb_lever_motion | 402D | Feedback Lever Motion | R/W | Enum | 0 | |
pilot_relay_type | 4016 | Pilot Relay Type | R | Enum | 0 | |
positioner_action | 402E | Positioner Action | R | Enum | 0 | |
electrical_fail_to | 402F | Electrical Fail To | R | Enum | 0 | |
air_fail_to | 4030 | Air Fail To | R | Enum | 0 | |
actuator_size | 4031 | Actuator Size | R/W | Enum | 0 | |
friction_level | 4032 | Friction Level | R/W | Enum | 0 | |
control_deadband | 4033 | Control Deadband | Positional control deadband | R/W | Float | 0 |
p_out_gap1 | 4034 | P Outside of GAP1 | Proportional gain outside GAP1. | R/W | Float | 0 |
i_out_gap1 | 4035 | I Outside of GAP1 | Integral time outside GAP1. | R/W | Float | 0 |
d_out_gap1 | 4036 | D Outside of GAP1 | Derivative time outside GAP1. | R/W | Float | 0 |
gap1 | 4037 | GAP1 | Large (outer) gap | R/W | Float | 0 |
p_in_gap1 | 4038 | P Inside of GAP1 | Proportional gain inside GAP1. | R/W | Float | 0 |
i_in_gap1 | 4039 | I Inside of GAP1 | Integral time inside GAP1. | R/W | Float | 0 |
Name | ID | Label | Description | Type | Access | Class |