Analog photocells measure light at the photocell and output a 0-10 V DC signal. On GLS-LDL photocells, this signal is output over the orange wire, with the red wire corresponding to 24 V DC input and the black wire corresponding to ground. 

Reading 0% in ShowRunnerCLC™

If an analog photocell (i.e. a 3-wire 0-10V photocell, not a Cresnet or internal occupancy sensor photocell) is defined in the ShowRunnerCLC™ configuration but you are not receiving a reading when looking at the photocell in XPanel or running the sr show photocell command, perform the following troubleshooting steps:

1. Verify the ShowRunnerCLC™ configuration:
   1. Id should be a number without quotes matching the dictionary ID (the quoted number at the top of the photocell definition)
   2. Model can be "GLS-LDL", "GLS-LOL", "GLS-LCL", or "GLS-LEXT" for non-system sensors
   3. HostDevice should be the model name in quotes for the device the photocell is wired to (GLS-SIM, ZUMLINK-JBOX-16A-LV, ZUMNET-JBOX-16A-LV, etc.)
   4. HostPort will be "1" without quotes for most devices. Exceptions are:
      1. GLS-SIM or C2N-CBD-P where the photocell is connected to port 2 will be "2" without ports
      2. GLPAC will correspond to the number of the dedicated photocell port that the photocell is connected to (1-4)
   5. DeviceHostId is the IP-ID in quotes for the host device or "null" without quotes if connected to a device without an IP-ID (e.g. a GLS-SIM connected directly to the processor)
   6. DevicehostBranch is "1" without quotes for most devices, with the exception being devices on DIN-CENCN-2 net 2 where the DeviceHostBranch will be "2" without quotes
   7. DeviceConnectionId will be the hexadecimal CID (Cresnet ID) of the host device in quotes
2. Verify the photocell is connected to the correct device (compare serial numbers to ensure the IP-ID, CID, and model match of the host device matches the configuration)
3. Verify wiring at the host device:
   1. For ZUMNET/ZUMLINK-JBOX the photocell should be using ports 4, 5, and 6 on the green terminal block, corresponding to 24V (red at the photocell), signal (orange at the photocell), and ground (black at the photocell)
   2. For GLS-SIM, there are two ports with two dipswitches each:
      1. Dip switches 1 and 2 correspond to port 1 while switches 3 and 4 correspond to port 2
      2. Dip switches are all in the on (up) position from factory, but photocells should have the dip switches for their port set to on-off (up-down)
4. Verify signal/power at the host device:
   1. Verify the host device is outputting 24V on the correct port
   2. Verify you are receiving a 0-10V signal at the host device by disconnecting the signal wire and measuring its voltage to ground
      1. You should see a sensor reading between 10V and 0V, with 0V being the reading when it is covered up. Ideally a second person will be at the photocell to shine a light or cover it up to verify readings are changing
   3. If there is no 24V output, then the host device is probably faulty and you should contact Crestron for troubleshooting or replacement
   4. If there is no 0-10V signal, proceed to troubleshooting at the sensor
5. Verify signal/power at the sensor:
   1. Verify 24V is reaching the photocell by disconnecting the photocell's red wire and measuring voltage on the cable from the host device
   2. Verify the photocell is outputting a 0-10V signal by disconnecting the orange wire and measuring voltage on the orange wire
   3. If you get a reading at the photocell but not at the JBOX then there is likely a wiring issue, i.e. wrong cable connected or the cable is damaged in the field
6. Check the jumpers/switch at the photocell to make sure the reading is in the correct range:
   1. Open loop 3-300fc (default)
   2. Open loop 30-3000fc (bright windows)
   3. Open loop 60-6000fc (skylight/exterior application)
   4. Closed loop 3-300fc (downward facing photocell)

Inverted Reading in ShowRunnerCLC™

Inverted readings in ShowRunnerCLC™ are usually the result of incorrect dip switches at the host device such as a GLS-SIM. This can be corrected without physical access to the host device by changing the Invert property in the config from false to true

1. k the jumpers/switch at the photocell to make sure the reading is in the correct range:
   1. Open loop 3-300fc (default)
   2. Open loop 30-3000fc (bright windows)
   3. Open loop 60-6000fc (skylight/exterior application)
   4. Closed loop 3-300fc (downward facing photocell)