InteliLite 4 AMF 25 an advanced single gen-set controller for stand-by and prime power applications. Intuitive, flexible, easy to install and use, the InteliLite 4 AMF 25 controller offers multiple configuration options to create the best solution for controlling and monitoring your gen-sets both on-site and remotely.
Easy-to-use and configure, the InteliLite 4 AMF 25 provides secure and flexible control of single –gen-sets for stand-by and prime power applications. Due to its connectivity and communication features, this product enables you to monitor the work of your sites anytime, anywhere.
InteliLite 4 AMF 25 offers:
Flexible and efficient setup and monitoring using InteliConfig, ComAp’s PC configuration and monitoring tool
Built-in PLC logic and PLC editor with easy-to-use drag and drop editing blocks
AirGateComAp’s controllers incorporate AirGate connection technology to make access to the internet as simple as possible. AirGate enables our controllers to connect to the internet using the existing network infrastructure, negotiating firewalls and VPN systems and removing the requirement for static and public IP addresses.
2.0 for easy connection to your equipment remotely, without worrying about your asset’s IP address
User-defined protections and setpoints on top of default protection
Remote control and monitoring of your gen-set operations from anywhere, anytime with WebSupervisor, our cloud-based fleet management tool
High-level security features keeping your business and data as safe as possible
Event-based history for fast and easy troubleshooting, with 350 history records available
Flexible platform that can be upgraded for more advanced applications
Stand-by and prime power application control from one unit with backlit symbols
Integrated communication and control ports on board (USB, USB host, CAN, RS485)
Two slots for plug-in modules for 4G, Ethernet, RS232/485 connections and additional binary inputs and outputs
Improved hardware platform with switchable analogue inputs and 5V reference output for analogue sensors
CAN module extensions
More precise measuring with a True Root Mean Square measurement feature
Zero power mode features to avoid battery drainage for prime power applications
Option to integrate InteliSCADA, our intuitive software tool for quick and simple creation and monitoring of complex SCADA systems
Secure user management with 5 unique user accounts
Multi-purpose maintenance timers and exercise timers with a back-up RTC battery
Multi ECU (Electronic Control Unit) with support for two control units
Compatibility with remote displays
Modbus register mapping
Optional geofencingA geographical area can be defined in the controller and, with the aid of our GPS module, a selectable protection can be activated when the gen-set leaves the defined area. Prevent your gen-set to be used in a location different to the one agreed upon. Taking your equipment to a different location without your consent is not only breach of contract but also it might deteriorate your gen-set. feature helping with efficient unit tracking and theft prevention
Power over USB for controller configuration
Dual mutual standby and prime power application support
Load shedding ensuring the most important loads are running even when there is a lack of power
If you have forgotten your controller password, it can be found using the password decode function.
You will need the following information about your device:
"password decode" number
Both numbers can be obtained through the monitoring software relevant to the device.
Serial number is available in Controller info
Password decode number is available in Values / Info
You can also show these numbers on your device's display. Typically, this requires a sequence or combination of buttons to be pressed. Details can be found typically in the device Operator guide.
Once you have these numbers, please contact your ComAp distributor and they will help you get your password back.
I cannot program my controller, it looks dead. How do I restore a controller with broken firmware?
The controller firmware does not usually break by itself however it can be damaged during controller programming, typically if power is lost during the process. If there does not seem to be a hardware issue with the controller there is an option to restore the controller using a process called ‘Boot Jumper’ programming.
This can be described as a sequence of steps you need to perform to allow the configuration tool to write new firmware into the device.
The steps typically are:
Physically connect the controller to your PC.
Power the controller on and initiate connection and firmware programming from the software tool menu.
The software will ask you to switch the device off, close the Boot Jumper and switch the device back on.
The programming will then proceed and you will receive further instructions during the process.
The boot jumper can be found either on the communication module (where plug-in modules are used) or on the device itself, typically under a rubber grommet, next to the dongle slot.
The description above is not enough? Try our Booot jumper training video.
How do I connect to my ComAp controller? What types of connections are supported?
ComAp offers a wide range of options to connect to your controller:
RS232 / RS485
USB - USB A<->B (usually a printer cable)
Internet connection - LAN, GPRS, 3G, 4G
Note that some connection types require you to use a communication module (plug-in eg a RS232 card) or communication bridge (external device eg Internet Bridge NT).
Each ComAp device usually allows for multiple ways of connection. The simplest one supported by the majority of our devices is the RS232 (serial) connection. For this, you need an RS232 cable (null modem) and if your PC is not equipped with an RS232 port you need a USB<->RS232 converter.
USB connections are very common. Almost all ComAp devices support connection using simple USB A<->B cable (printer cable) for easy configuration. Some devices can be powered from the USB port for programming to allow easy configuration right on your desk.
Other connection types: Internet connection (LAN, GPRS, 3G, 4G), Modbus RTU, Modbus TCP, SNMP, AirGate, Modem.
Note that some connection types require you to use a communication module (plug-in eg a RS232 card) or communication bridge (external device eg Internet Bridge NT). Not all types of connection are possible on each device. You can find all the details related to this topic in your device's Comprehensive guide or Communication guide.
Detailed information about connection to:
InteliLite NT, InteliATS NT, InteliCompact NT is available IL-NT, IA-NT, IC-NT Communication Guide (page 21)
InteliGen-NT, InteliSys-NT, InteliMains-NT is available in IGS-NT Communication Guide (page 19)
InteliLite is available in Global Guide InteliLite AMF25 Global Guide (page 126)
I cannot connect to my controller using the Internet or AirGate connection, why?
Usually connecting to the controller over the internet is straightforward and works out of the box. However, there are a few parameters that need to be set correctly.
Make sure you have the latest firmware in the controller itself but also in all the communication modules (plug-in, built-in or external).
Communication modules that supports connection via the internet
Ensure the communication interface is configured correctly.
CM-4G-GPS, CM-Ethernet, CM-GPRS - Can be set in the controllers setpoints on the unit itself or using InteliConfig configuration software.
IB-COM, IB-Lite - Use web interface - just connect to http://<controller-ip-address>/sp_index.htm using your favourite web browser.
InternetBridge-NT 4G, InternetBridge-NT - Requires a software tool called IBNTConfig(https://www.comap-control.com/products/detail/ib-nt-config) and an USB A<->B cable for configuration. This way you can also enable MODBUS, SNMP etc.
Make sure there is no firewall blocking your connection. Consult your IT specialist or ISP if not sure. If you use a firewall, make sure the following ports are open for communication:
The device must be able to send data to the AirGate server at UDP port 6127 and TCP port 23. The TCP port can be changed in the module setup to 21 if needed.
TCP port 44445 is required for WebSupervisor connection.
Port 80 is used for accessing the communication module web interface.
Port 502 is used for Modbus TCP communication (enabled by default).
Port 161 is used for SNMP (needs to be enabled).
How do I change the controller firmware? Where can I get the latest firmware?
You can download the latest firmware package on the webpage of the device. You can easily navigate there through the ‘Products’ section or just use the Search function. If you cannot find the firmware on the website or if you require different than the offered version do not hesitate to contact our support team.
The firmware upgrade itself is easy to perform. You need the appropriate configuration software and a connection to the controller (preferably a direct connection). Prior to initiating the update process, we strongly recommend you to save a complete backup of your device.
It usually consists of several steps:
Create a controller back up.
Update the device firmware. It will contain default Configuration Archive and default Application.
Change the Application (SPtM, MiNT, MCB, MGCB, BTB, etc) to the required type (by programming appropriate default archive to the controller).
Use the Import Configuration Wizard to restore your previous configuration. In some cases manual interventions might be needed during this step.
Optional: Update the connected display firmware or device communication module firmware.
Should you be unsuccessful in programming the new version, the rollback procedure is to install previous firmware version and use your back up to restore the controller to its original state before the firmware upgrade was attempted.
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