Hello! Thank you for the video, can you please explain what is the difference between one EOL and double EOL setup? I am mainly curious about the read switch sensor setup. Thanks!
@@freaghill94 Hi Mate , certainly I can help you out , read my comment below you will have clear picture what is this all about. Single End of Line (EOL) Configuration: • Resistor Placement: In a Single EOL configuration, a single resistor is placed at the end of the sensor circuit, typically across the sensor contacts. • Monitoring: The control panel monitors the resistance to determine if the circuit is normal, open (alarm condition), or shorted (tamper condition). • Normal Condition: The panel detects the expected resistance value (e.g., 1k ohms). • Open Circuit: If the circuit is open (e.g., a door is opened), the resistance will be infinite, indicating an alarm. • Short Circuit: If the wires are shorted (resistance close to 0 ohms), it indicates a tamper condition. • Usage: EOL is simpler and typically used in less secure environments where tamper protection isn’t as critical. Double End of Line (DEOL) Configuration: • Resistor Placement: In a DEOL configuration, two resistors are used-one across the sensor contacts and another across the tamper switch or at the control panel end. • Monitoring: This configuration allows the control panel to distinguish between four different states: normal, open, short, and tampered. • Normal Condition: The control panel detects the combined resistance of the two resistors in series. • Open Circuit: The resistance becomes infinite if the circuit is open (e.g., a door is opened), indicating an alarm. • Short Circuit: The resistance drops to a low value (typically close to 0 ohms), indicating a short circuit or tamper. • Tamper Condition: If the tamper switch is activated, the resistance will change, typically to a different predefined value (e.g., the resistance of only one of the resistors), indicating tampering. • Usage: DEOL is more secure and used in environments where it’s essential to detect both tampering and the actual alarm condition separately. Summary: • Single EOL: Simple, detects normal, open, and short conditions. • Double EOL: More advanced, detects normal, open, short, and tampered conditions. DEOL provides enhanced security by making it more difficult for an intruder to bypass the system without triggering an alarm.
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thank you so much for this video. if you can do another video for evo12 with acm 12 (door strike) would be appreciated. thank you
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Hello! Thank you for the video, can you please explain what is the difference between one EOL and double EOL setup? I am mainly curious about the read switch sensor setup. Thanks!
@@freaghill94 Hi Mate , certainly I can help you out , read my comment below you will have clear picture what is this all about.
Single End of Line (EOL) Configuration:
• Resistor Placement: In a Single EOL configuration, a single resistor is placed at the end of the sensor circuit, typically across the sensor contacts.
• Monitoring: The control panel monitors the resistance to determine if the circuit is normal, open (alarm condition), or shorted (tamper condition).
• Normal Condition: The panel detects the expected resistance value (e.g., 1k ohms).
• Open Circuit: If the circuit is open (e.g., a door is opened), the resistance will be infinite, indicating an alarm.
• Short Circuit: If the wires are shorted (resistance close to 0 ohms), it indicates a tamper condition.
• Usage: EOL is simpler and typically used in less secure environments where tamper protection isn’t as critical.
Double End of Line (DEOL) Configuration:
• Resistor Placement: In a DEOL configuration, two resistors are used-one across the sensor contacts and another across the tamper switch or at the control panel end.
• Monitoring: This configuration allows the control panel to distinguish between four different states: normal, open, short, and tampered.
• Normal Condition: The control panel detects the combined resistance of the two resistors in series.
• Open Circuit: The resistance becomes infinite if the circuit is open (e.g., a door is opened), indicating an alarm.
• Short Circuit: The resistance drops to a low value (typically close to 0 ohms), indicating a short circuit or tamper.
• Tamper Condition: If the tamper switch is activated, the resistance will change, typically to a different predefined value (e.g., the resistance of only one of the resistors), indicating tampering.
• Usage: DEOL is more secure and used in environments where it’s essential to detect both tampering and the actual alarm condition separately.
Summary:
• Single EOL: Simple, detects normal, open, and short conditions.
• Double EOL: More advanced, detects normal, open, short, and tampered conditions.
DEOL provides enhanced security by making it more difficult for an intruder to bypass the system without triggering an alarm.
@@rigidsecurityltd2367 Thank you!!
good