Lenel Lnl-3300-m5 Installation Manual Upd -
Lenel Lnl-3300-m5 Installation Manual Upd -
Step 4: Setting the Jumpers and DIP SwitchesThe LNL-3300-M5 uses DIP switches to define the hardware address and communication baud rate. Switches 1-5: Set the device address (binary format). Switch 6-7: Configure the communication speed. Switch 8: Typically used for factory default resets.
If you are currently planning or executing an installation, I can help you streamline the process. Troubleshoot ? Review steps for configuring the OnGuard software ? Let me know what you need to focus on next! LNL-2220/3300 Initial Configuration Guide | PDF - Scribd
The Lenel LNL-3300-M5 is the CPU board within the M Series controller enclosure. It acts as the access control engine for the OnGuard system, providing local, distributed processing for door control, alarm inputs, alarm outputs, and keypad interfaces.
Once the physical wiring is complete, the device must be recognized by the software.
The backup battery serves as a temporary power source for the M Series when AC power is lost. When installing a battery backup: Lenel Lnl-3300-m5 Installation Manual UPD
The LNL‑3300‑M5 uses a lithium battery to power the static RAM (which holds certain configuration data) and the real‑time clock when input power is removed. to maintain configuration integrity and accurate timekeeping during power outages.
The M5 series serves as a bridge between older hardware and modern IP-based security management. By utilizing the existing footprint and wiring of CASI Micro/5 enclosures, the LNL-3300-M5 reduces labor costs and system downtime during upgrades. Key Features: Compatibility with OnGuard version 6.4.500 or higher. Support for up to 16 downstream device addresses. Onboard 10/100 Ethernet port for primary communication.
The Lenel LNL-3300-M5 is a powerful access control panel that offers advanced features and capabilities. By following the installation steps outlined in this article and consulting the Lenel LNL-3300-M5 installation manual, you can ensure a successful installation and start enjoying the benefits of a secure and efficient access control system.
| Old Habit | New Requirement (UPD Manual) | |-----------|-------------------------------| | Using any 4-conductor cable | Must use for OSDP | | Daisy-chaining reader power | Home-run reader power separately | | Ignoring termination jumpers | Set J3 based on physical bus position | | Hot-swapping readers | Power down module first – M5 can latch faults | Step 4: Setting the Jumpers and DIP SwitchesThe
Set the download parameters, assign downstream reader modules matching the physical RS-485 channel layouts, and initiate a full database download to the panel.
Secure the board using the provided non-conductive nylon standoffs and screws to prevent electrical shorts against the backplane. Step 2: Power and Grounding Connections
Note: Ensure that the last legacy board on the physical RS-485 loop is properly terminated with a 120-ohm resistor or the appropriate onboard termination jumper. Cabinet Tamper and Power Fault Inputs
Insert a standard Cat5e or Cat6 Ethernet cable into Port 1 (RJ-45). Connect the other end to your dedicated security network switch. Switch 8: Typically used for factory default resets
Old firmware can cause random reader resets on M5 hardware.
Verify that the system status LED on the LNL-3300-M5 blinks a steady green heartbeat pattern, indicating successful communication with the OnGuard server.
Turn off all primary power sources supplying the legacy CASI Micro/5 enclosure.