Lenel Lnl-3300-m5 Installation Manual Upd [patched] -

Lenel LNL-3300-M5 Installation & Migration Guide The Lenel LNL-3300-M5 Go to product viewer dialog for this item.

is an Intelligent System Controller (ISC) designed specifically for the OnGuard® system. It serves as a plug-compatible, Mercury-based hardware replacement for legacy CASI M5 and M3000 boards, facilitating a modern migration path for systems like Picture Perfect, FCWnx, and Secure Perfect. 1. Pre-Installation Preparation

Before beginning, ensure you have the following requirements and tools: Operating Voltage: 12 VDC ± 10% at approximately 300mA.

Backplane Compatibility: The board is designed to retrofit into legacy CASI M5/M3000 enclosures.

Connectivity Hardware: A standard Cat5/6 cable for Ethernet and shielded twisted pair (24 AWG) for RS-485 downstream communication.

System Software: OnGuard software must be licensed and configured for the LNL-3300 series.

Important Note: Legacy CASI M Series boards cannot be mixed with Lenel M Series boards in the same controller; if you convert a controller, all boards within it must be upgraded to the Lenel M Series. 2. Physical Installation Steps To install or migrate to the LNL-3300-M5

Power Down: Completely power down the legacy controller and disconnect the backup battery.

Unplug Wiring: Label and unplug the field wiring and the power/comm board connectors from the legacy CPU.

Remove Old Board: Unscrew and remove the legacy M5/M3000 CPU (e.g., E, P, PX, PXN, or PXNplus) and the CASI Power/Comm Board (PN: 110064001). Insert LNL-3300-M5

: Mount the new board onto the existing standoffs in the enclosure.

Reconnect Wiring: Plug in the 12 VDC power input, cabinet tamper input, and AC power fail inputs. The LNL-3300-M5 is one-for-one plug compatible with these connections. 3. Initial Configuration & IP Setup LNL-3300-M5 - Stebilex Systems Lenel Lnl-3300-m5 Installation Manual UPD

Lenel LNL-3300-M5 is an Intelligent System Controller designed specifically for migrating legacy CASI-RUSCO M5 and M3000 hardware to the

access control system. It serves as a plug-compatible CPU replacement that allows users to keep existing field wiring and enclosures while upgrading to modern security features. Amazon.com Key Features LENEL LNL-3300-M5 Intelligent System M Series Controller

The Lenel LNL-3300-M5 is the central processing unit (CPU) replacement board designed to seamlessly migrate legacy CASI M5 or M3000 systems directly over to the Lenel OnGuard platform. It replaces legacy E, P, PX, PXN, and PXNplus CPUs, as well as the legacy CASI power/comm boards.

This complete step-by-step guide covers the physical installation, jumper configurations, and initial network programming based on the official Lenel OnGuard Hardware Installation Guide. 🛠️ Key Specifications & Wiring

The board fits natively into the existing legacy backplane footprint and retains standard communication protocols to downstream devices. Power Requirements: 12 VDC ± 10% at 300 mA.

Ethernet Communication: On-board 10/100 MB RJ-45 Ethernet port.

Downstream Bus: RS-485 2-wire connection across the backplane to Reader Panels (RP) and I/O boards.

Offline Storage: Up to 240,000 cardholders and 50,000 local events. 🏗️ Step 1: Hardware Installation

🚨 WARNING: Disconnect all power before removing or adding boards to avoid catastrophic electrical damage.

Power Down: Disconnect the legacy CASI power source and unplug the battery backups.

Document Wires: Label all cables connected to the legacy CPU and power/comm board. Lenel LNL-3300-M5 Installation & Migration Guide The Lenel

Remove Legacy Board: Unscrew and detach the legacy CPU and Power/Communications board.

Mount the LNL-3300-M5: Line up the board with the legacy standoff spacers on the enclosure backplane. Push firmly until it clicks securely into place. Reattach Wiring:

Reconnect the dedicated Cabinet Tamper and AC Power Fail leads.

Re-seat the power connector leading from the cabinet's power supply.

Use high-quality 24 AWG shielded twisted pair for any external RS-485 bus runs. 🎛️ Step 2: DIP Switch & Jumper Setup

Before applying power, properly configure the board using the onboard switch matrix. S1 DIP Switch Configurations

The DIP switches are read upon startup. Standard setups use these patterns:

Normal Operation: All switches OFF (1: OFF, 2: OFF, 3: OFF, 4: OFF).

Default IP Mode: Switch 2 ON, others OFF (Enables fallback 192.168.0.251 IP).

Default Login Override: Switch 1 ON (Overrides credentials to username: admin / password: password). Important Jumpers

Ensure the memory/clock backup battery jumper (often designated as J19) is set to ON to prevent loss of local database logs during power outages. 💻 Step 3: Network Configuration (Web Interface) De-energize power before making any wire connections to

To give the controller an identity on your network, use its on-board web server.

Physical Connection: Run a crossover cable or patch cable from your laptop directly to the RJ-45 Ethernet port on the LNL-3300-M5.

Laptop IP Setting: Statically set your laptop to 192.168.0.250 with a subnet mask of 255.255.255.0.

Accessing the Panel: Set DIP switch 2 ON and power cycle the board. Open a web browser and type http://192.168.0.251.

Authenticating: Flip DIP switch 1 ON to allow login bypass. Log in using admin and password.

Set Target Network Values: In the "Network" menu, assign your corporate static IP or enable DHCP, then save the configuration.

Finalize: Flip all DIP switches back to OFF and reboot the controller to secure the device and deploy your operational settings. 🏁 Step 4: OnGuard Enrollment

With physical wiring and network parameters addressed, finalize setup within the Lenel OnGuard System. Launch OnGuard System Administration. Navigate to Access Control > Access Panels. Create a new panel and choose LNL-3300 as the panel type. Input the new static IP address you configured in Step 3.

Save and perform a full panel download to push the local database and access schedules to the board. LNL-3300-M5 | Stebilex

Safety and Compliance

The installation manual contains strict warnings regarding safety. Technicians should always:

• De-energize power before making any wire connections to the terminal blocks.
• Follow local electrical codes for low-voltage wiring.
• Ensure proper fusing of the power outputs.

Step 1: Unboxing and Inspection

Verify the following components:

• LNL-3300-M5 main board (Green PCB, sized 152mm x 203mm).
• Four nylon standoffs and mounting screws.
• 10-pin reader header cables (if ordered).
• Missing: Power supply (sold separately unless PoE is used).

11. Example wiring notes (practical assumptions)

• Reader power: 12 VDC output, fused at 2 A per reader; combine load should not exceed module’s rated DC output.
• Lock output: Relay rated for switching up to specified voltage/current; for high inrush locks use a dedicated power supply sized for inrush plus steady state.
• Supervised inputs: Use 4.7k end-of-line resistor (example) if module requires; confirm exact resistor value from UPD or manual.

Key Updates in the Latest LNL-3300-M5 Manual (Version 6.0)

The Lnl-3300-m5 Installation Manual UPD (Rev 6.0, 2025/2026) includes three critical changes compared to legacy versions:

1. Secure Boot Enforcement: The new manual mandates disabling legacy fallback mode. Firmware must be signed.
2. IEEE 802.3af PoE Class 3: While older units required 12VDC external power, Rev 6.0 boards support PoE without a power adapter (provided the switch can deliver 15.4W).
3. Tamper Input Standard: The M5 revision now includes a dedicated terminal for enclosure tamper monitoring (previously needed a separate module).

Power Requirements

• Input: typically 12–24 VDC regulated power; check label for exact spec.
• Current: allow for peak inrush from locks, request-to-exit devices, and readers. Use a power supply sized for controller plus all peripheral devices.
• Fuse protection: install appropriate fuses or breakers on power inputs.