Installation

28.11 Model 463G NET with CELL as Alternate Primary and Dialer Backup, Standard or Encrypted Line Security

Standard or Encrypted Line Security is provided using NET communication with CELL as an alternate primary and with digital dialer as a backup. XR500 network communication is used as primary with a 6 minute check-in when armed, and a random check-in over a 60 minute period when disarmed. CELL is the backup path and set to daily test. Should the NET primary path become disabled, CELL adapts the same check-in time programmed for the primary communication and becomes an alternate primary path. The dialer path is used as the backup if both NET and CELL fail to receive acknowledgement from the receiver.

This method of operation causes the CELL alternate primary to adapt to the 6 minute NET primary check-in rate when the NET primary is unavailable maintaining line supervision and precludes the need for a central station runner to respond to the NET primary failure.

Path 1 programming

Path 2 programming

Path 3 programming

Comm Type: = NET

Comm Type: = CELL

Comm Type: = DD

Path Type: = Primary

Path Type: = Backup

Path Type: = Backup

 

(operates as alternate

(operates as second

 

primary)

method)

Test Rpt: = NO

Test Rpt: = YES

Test Rpt: = YES

Checkin: = 6 minute, or RND

Test Freq: = Daily

Test Freq: = Daily

(random)

 

 

Fail Time: = 6 minute, or RND

Checkin: = ADAPT

Duplicate Alarms: = YES

(random)

 

 

Encrypt: = NO or YES*

Encrypt: = NO or YES*

 

Sub Code: = YES

Sub Code: = Shared

 

*For Encrypted Line Security, program a Passphrase in Network Options.

28.12 Model 463G NET with CELL as Backup and Adaptive Primary, Standard or Encrypted Line Security

Standard or Encrypted Line Security is provided when programmed using NET communication and CELL as backup and as needed adapts and takes over as primary. XR500 network communication is used as primary with a 6 minute check-in when armed, and a random check-in over a 60 minute period when disarmed. CELL is the backup path and set to daily test. Should the primary path become disabled, the CELL adapts to a special 3 minute check-in time and because of that check-in rate becomes the primary without the requirement of a backup. This method of operation causes the CELL backup to adapt to the 3 minute check- in rate when the NET primary is unavailable becoming a standalone primary without the need for a backup. This maintains line supervision and precludes the need for a central station runner to respond to the NET primary failure.

Path 1 programming

Path 2 programming

Comm Type: = NET

Comm Type: = CELL

Path Type: = Primary

Path Type: = Backup (operates as second

 

method)

Test Rpt: = NO

Test Rpt: = YES

Checkin: = 6 minute, or RND

Test Freq: = Daily

(random)

 

Fail Time: = 6 minute, or RND

Checkin: = ADAPT3

(random)

 

Encrypt: = NO or YES*

Encrypt: = NO or YES*

Sub Code: = YES

Duplicate Alarms: = YES

 

Sub Code: = Shared

*For Encrypted Line Security, program a Passphrase in Network Options.

XR2500F Installation Guide

Digital Monitoring Products

31

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DMP Electronics XR2500F manual Path 1 programming Path 2 programming Path 3 programming

XR2500F specifications

The DMP Electronics XR2500F is an advanced and versatile electronic device designed to cater to a wide range of applications including industrial automation, robotics, and smart home technologies. Known for its robust performance and reliable functionalities, the XR2500F stands out as a leading option in the market.

One of the main features of the XR2500F is its powerful processing unit, which ensures efficient handling of complex tasks and data processing. With a clock speed of up to 2.5 GHz, the device is capable of multitasking, enabling users to run multiple applications simultaneously without compromising performance. This makes the XR2500F an ideal choice for applications that require real-time data processing and analysis.

The XR2500F is equipped with an extensive array of connectivity options, including Wi-Fi, Bluetooth, and Ethernet capabilities. This allows for seamless integration with various devices and networks. The wireless options facilitate easy communication with cloud services and other IoT devices, making it suitable for smart home automation systems, where synchronization and control are critical.

In terms of memory, the XR2500F offers significant storage capacity, with options that can accommodate up to 64GB of RAM and 512GB of flash storage. This ample memory ensures that users can store large amounts of data and run memory-intensive applications without experiencing slowdowns. Additionally, the device supports expandable memory options, allowing for future upgrades to meet growing demands.

The XR2500F also incorporates advanced security technologies to protect sensitive data. Features like end-to-end encryption and secure boot processes safeguard against unauthorized access and data breaches. This is particularly important in industrial settings where data integrity is critical for operational safety.

Another remarkable characteristic of the XR2500F is its energy efficiency. Designed with the latest power management technologies, the device minimizes energy consumption while maximizing performance. This not only reduces operational costs but also aligns with green technology initiatives.

Overall, the DMP Electronics XR2500F is a high-performance electronic device that combines powerful processing, extensive connectivity, robust memory, enhanced security, and energy efficiency. Its versatility and reliability make it a preferred choice for professionals seeking innovative solutions in automation and control systems.