I/O Registers
DIGITAL_OUTPUTS_STATUS_REGISTER (30042)
The register contains an integer value representing the states of digital outputs (O1-O2).
LIGHT1_STATUS_O1 (30042) Bit 0
The bit state shows the actual state of the light output 1.
If the bit is active (bit 0=1), the circuit of the light output 1 relay is closed. If the bit is inactive (bit 0=0), the circuit of the light output 1 relay is open.
LIGHT2_STATUS_O2 (30042) Bit 1
The bit state shows the actual state of the light output 2.
If the bit is active (bit 1=1), the circuit of the light output 2 relay is closed. If the bit is inactive (bit 1=0), the circuit of the light output 2 relay is open.
BLIND_UP_STATUS_O3 (30042) Bit 2
The bit state shows the actual state of the blind output, O3.
If the bit is active (bit 1=1), the circuit of the blind output O3 relay is closed. If the bit is inactive (bit 1=0), the circuit of the blind output O3 relay is open.
BLIND_DOWN_STATUS_O4 (30042) Bit 3
The bit state shows the actual state of the blind output O4.
If the bit is active (bit 1=1), the circuit of the blind output O4 relay is closed. If the bit is inactive (bit 1 =0), the circuit of the blind output O4 relay is open.
DIGITAL_INPUTS_STATUS_REGISTER (30041)
The register contains an integer value representing the states of all digital inputs (I1-I4).
DI1_STATUS (30041) Bit 0
The bit state shows the actual state of the digital input 1.
If the bit is active (bit 0 =1), the digital input 1 is active (closed circuit). If the bit is inactive (bit 0=0), the digital input 1 is inactive (open circuit).
DI2_STATUS (30041) Bit 1
The bit state shows the actual state of the digital input 2.
If the bit is active (bit 1=1), the digital input 2 is active (closed circuit). If the bit is inactive (bit 1=0), the digital input 2 is inactive (open circuit).
DI3_STATUS (30041) Bit 2
The bit state shows the actual state of the digital input 3.
If the bit is active (bit 2=1), the digital input 3 is active (closed circuit). If the bit is inactive (bit 2=0), the digital input 3 is inactive (open circuit).
DI4_STATUS (30041) Bit 3
The bit state shows the actual state of the digital input 4.
If the bit is active (bit 3=1), the digital input 4 is active (closed circuit). If the bit is inactive (bit 3=0), the digital input 4 is inactive (open circuit).
DIGITAL_INPUTS_COMMAND_REGISTER (40101)
The register contains an integer value representing command states of all digital inputs (I1-I4). The Digital Input Command simulates physical signal on the digital input (closed or open loop). The feature can be useful for the signal test, emergency use in case of a switch failure, or for remote control from BMS.
DI1_COMMAND (40101) Bit 0
The bit overrides the signal from the digital input 1. The command simulates the physical signal on I1 from BMS.
If the bit is active (bit 0=1), the digital Input 1 is overridden and considered active (closed circuit). If the bit is inactive (bit 0=0), the digital input 1 is overridden and considered inactive (open circuit).
DI2_COMMAND (40101) Bit 1
The bit overrides the signal from the digital input 2. The command simulates the physical signal on I2 from BMS.
If the bit is active (bit 1=1), the digital input 2 is overridden and considered active (closed circuit). If the bit is inactive (bit 1=0), the digital input 2 is overridden and considered inactive (open circuit).
DI3_COMMAND (40101) Bit 2
The bit overrides the signal from the digital input 3. The command simulates the physical signal on I3 from BMS.
If the bit is active (bit 2=1), then the digital input 3 is overridden and considered active (closed circuit). If the bit is inactive (bit 2=0), then the digital input 3 is overridden and considered inactive (open circuit).
DI4_COMMAND (40101) Bit 3
The bit overrides a signal from the digital input 4. Command is dedicated to simulate the physical signal on I4 from BMS.
If the bit is active (bit 3=1), the digital input 4 is overridden and considered active (closed circuit). If the bit is inactive (bit 3=0), the digital input 4 is overridden and considered inactive (open circuit).
DIGITAL_INPUTS_BLOCKING_REGISTER (40102)
The register contains an integer value allowing to block all digital inputs (I1-I4). By default, all digital inputs are unblocked (all bits of the register are inactive (0)). The feature allows to block a particular digital input in order to withhold the functioning of manual control of light (or blind) by switch(es). The function can be useful in open spaces or common use areas, where the manual switching of light needs to be disabled, for example, after working hours.
DI1_BLOCKING (40102) Bit 0
If the bit is active (bit 0=1), the digital input 1 is blocked. Any signal appearing on the digital input 1 has no effect on the control algorithm.
If the bit is inactive (bit 0=0), the digital input 1 works in normal mode, which means that changes on the digital input 1 (opening and closing the circuit) have impact on the control algorithm.
DI2_BLOCKING (40102) Bit 1
If the bit is active (bit 1=1), the digital input 2 is blocked. Any signal appearing on the digital input 2 has no effect on the control algorithm.
If the bit is inactive (bit 1=0), the igital input 2 works in normal mode, which means that changes on the digital input 2 (opening and closing the circuit) have impact on the control algorithm.
DI3_BLOCKING (40102) Bit 2
If the bit is active (bit 2=1), the digital input 3 is blocked. Any signal appearing on the digital input 3 has no effect on the control algorithm.
If the bit is inactive (bit 2=0), the digital input 3 works in normal mode, which means that changes on the digital input 3 (opening and closing the circuit) have impact on the control algorithm.
DI4_BLOCKING (40102) Bit 3
If the bit is active (bit 3=1), the digital input 4 is blocked. Any signal appearing on the digital input 4 has no effect on the control algorithm.
If the bit is inactive (bit 3=0), the digital input 4 works in normal mode, which means that changes on the digital input 4 (opening and closing the circuit) have impact on the control algorithm.
SPECIAL_INPUTS_STATUS_REGISTER (30043)
The register contains an integer value representing the physical states of special inputs (S1 and S2).
SI1_STATUS (30043) Bit 0
The bit state shows the actual physical state of the special input 1 (without DelayOFF time consideration).
If the bit is active (bit 0=1), the special input 1 is active (closed circuit). If the bit is inactive (bit 0=0), the special input 1 is inactive (open circuit).
SI2_STATUS (30043) Bit 1
The state of the bit shows the actual physical state of the special input 2 (without DelayOFF time consideration).
If the bit is active (bit 1=1), the special input 2 is active (closed circuit). If the bit is inactive (bit 1=0), the special input 2 is inactive (open circuit).
SI1_PIR_TYPE (40103)
The register contains an integer value representing the type of motion sensor/presence detector, which is connected to the special input 1. By default, the motion sensor/presence detector is set as normal closed type, but it can be changed in accordance with the table below:
Value | Type |
|---|---|
5 | NO |
6 (default) | NC |
SI2_PIR_TYPE (40104)
The register contains an integer value representing the type of motion sensor/presence detector, which is connected to the special input 2. By default, the motion sensor/presence detector is set as normal closed type, but it can be changed in accordance with the table below:
Value | Type |
|---|---|
5 | NO |
6 (default) | NC |
SI1_DELAY_OFF_TIME (40107)
The register contains an integer value representing a time value in seconds.
The Delay OFF time stored in this register is a minimal time when the light is ON after a motion detection by motion sensor/presence detector connected to the special input 1.
If there is no motion during the period of time stored in this register, the light is switched OFF. The default value is 300 seconds.
SI2_DELAY_OFF_TIME (40108)
The register contains an integer value representing a time value in seconds.
The Delay OFF time stored in this register is a minimal time when the light is ON after a motion detection by motion sensor/presence detector connected to the special input 1.
If there is no motion during the period of time stored in this register, the light is switched OFF. The default value is 300 seconds.
SI_PIR_STATUS (30148)
The register contains an integer value representing states of special inputs (S1 and S2) including the DELAY_OFF_TIME.
SI1_PIR_STATUS (30148) Bit 0
The bit state shows the actual state of the special input 1 with DelayOFF time consideration.
If the bit is active (bit 0=1), the special input 1 is active (closed circuit). If the bit is inactive (bit 0=0), the special input 1 is inactive (open circuit).
SI2_PIR_STATUS (30148) Bit 1
The bit state shows the actual state of the special input 2 with DelayOFF time consideration.
If the bit is active (bit 4=1), the special input 2 is active (closed circuit). If the bit is inactive (bit 4=0), the special input 2 is inactive (open circuit).