Issue
If the Central Station receives a signal in 4 x 2 format from a D2112 panel, how can that signal be deciphered using the programmed settings in the panel ?
Solution
The report code will consist of data digit 1 and data digit 2. When sending signals in Pulse, the first digit of the reported signal must be set to a particular report group in panel programming. The second digit will contain the point number or user number or event number that relates to digit one.
The chart below shows the Description of what the second digit of a reported code would be if the first digit were programmed as show below. NOTE: The first digit could be any selection 0-9 or B-F for any of the report groups.
To decipher the reported code: If using the D5200, look in programming under Receiver Format and RPT Groups for Pulse. The number entered beside the Report Group is what will come in as the first reported digit. Using the chart below, the point number or user number or event number that pertains to the second digit is described.
In remote programming, view the report section of the program to determine the report group programmed for Digit one. Using the chart below, the point number or user number or event number that pertains to the second digit is described.
Issue
What is the Bosch part number for the Inovonics FA206DS wireless motion detector?
Solution
The Bosch part number for the FA206DS would be the DS775RF and is used with the Inovonics FA400 receiver and the Bosch D8125INV wireless interface for Bosch D7412G/D9412G control panels.
Issue
Does Bosch make a mounting bracket for the DS775I?
Solution
Yes:
B335 = Low profile mount bracket
B328 = Gimbal mount bracket
B338 = Ceiling mount bracket
Issue
What is the proper alignment procedure for the DS455Q?
Solution
Alignment by LED
Apply power to the system.
Use the supplied interruption sheets to cover the lower optical modules of the transmitter and the receiver.
Look into the upper scope of the transmitter 10 cm (3.9 in.) to 15 cm (5.9 in.) from the optical module. Use the turntable to adjust the horizontal angle.
Use the horizontal and vertical adjustment screws to locate the receiver in the center of the viewing area.
Look at the Level Meter on the receiver to proceed with fine tuning.
Use a screwdriver to adjust the angle of the upper optical module.
As more beam energy is received, each LED status follows this sequence: ON_Flashes quickly_Flashes slowly=>OFF
Continue fine tuning until all LEDs turn off.
Remove the interruption sheets from the lower optical modules and cover the upper optical modules of the transmitter and the receiver. Repeat the alignment process for the lower optical modules.
When all LEDs turn off, the alignment is complete. Remove the interruption sheets from the optical modules.
Alignment Using a Voltmeter
Apply power to the system.
Use the supplied interruption sheets to cover the lower optical modules of the transmitter and the receiver.
Insert the voltmeter leads into the alignment check terminals.
Set the voltmeter to 10 volts VDC.
Use a screwdriver and adjust the upper optical modules to obtain the maximum voltage. In an ideal environment, the voltage is 3.0 VDC or above.
Remove the interruption sheets from the lower optical modules and cover the upper optical modules of the transmitter and the receiver. Repeat the alignment process for the lower optical modules.
Make sure to remove the interruption sheets and close the covers when alignment is complete.