Motorola PTP 300 Pre-Power Testing Recording Resistance Values, User Notes, Measure Measured

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Pre-Power Testing - Recording Resistance Values

Record the information listed in Table 2. This information will be useful if there is a need to contact Motorola Support or to identify future changes in the installation.

Measure

Measured

Measured

Resistance

Resistance

Resistance

Between Pins

Value

Value

 

 

LOCAL

REMOTE

 

 

 

1&2

 

 

3&6

 

 

4&5

 

 

7&8

 

 

 

 

 

1&3

 

 

4&7

 

 

1&8

 

 

1&ODU Ground

 

 

8&ODU Ground

 

 

Table 2 : Record of Installation Measurements

IP Address LOCAL

Link Name LOCAL

MAC Address LOCAL

IP Address REMOTE

Link Name REMOTE

MAC Address REMOTE

User Notes

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Contents PTP 300/500 Series Protect Your Installation Recommended components for protecting an installation areProtection Requirements Checklist, Site Survey and Tools ChecklistBench Testing Optional Connect and Power Up Bench Testing Optional Configuration Checks Hoist & Safety Loop Count must this be at Mast Installation InstructionsWork NB On no ac Tached to the mount Ing bracket boltsMotorola PTP 300/500 Series Installation Wiring Correct cable preparation for the recommended cable 36mm min 45mm max Cable and Gland Installation Notes Cat5E Resistance Pre-Power TestingBetween pins Meters 3&6, 4&5Measure Measured Pre-Power Testing Recording Resistance ValuesUser Notes ValueCorrect operation is as follows Post-Power Testing and Fault FindingPidu green power LED flashes Pidu Ethernet orange LED flashes ten times but irregularlyAudio indications from the ODU Installation and CommissioningTone Description State Description Additional Notes Installation and Commissioning Registration Warranty and Ordering Information License Keys and Regulatory Information

PTP 500, PTP 300 specifications

Motorola's PTP 300 and PTP 500 series are engineered to provide robust point-to-point microwave solutions tailored for various applications, including backhaul for broadband networks, enterprise connectivity, and more. These systems are designed to deliver reliable, high-capacity wireless connectivity, making them integral components of modern communication infrastructures.

The PTP 300 series operates in the 2.5 GHz frequency band, allowing for long-range communication capabilities of up to 100 miles, depending on environmental conditions and deployment scenarios. This series supports data rates of up to 56 Mbps, making it suitable for applications that demand high-speed data transmission. It utilizes advanced MIMO technology, which enhances throughput and wireless reliability by utilizing multiple antennas to transmit and receive data simultaneously.

The PTP 500 series, on the other hand, operates in both the 5 GHz and the 4.9 GHz frequency bands. This versatility allows operators to select the optimal frequency for their specific environment, helping to mitigate interference and optimize performance. The PTP 500 series can achieve even higher data rates, reaching up to 300 Mbps, and can cover distances exceeding 30 miles.

Both series feature robust security mechanisms, including AES encryption, to safeguard data integrity and confidentiality. Their inherent design incorporates efficient power consumption and minimal latency, making them suitable for real-time applications like VoIP and video conferencing.

Installation and maintenance of the PTP 300 and PTP 500 systems are user-friendly, owing to a web-based management interface, which simplifies configuration and troubleshooting. They also include auto-alignment features that facilitate quick deployment and ensure optimal signal strength.

In terms of physical characteristics, both the PTP 300 and PTP 500 models are built to withstand harsh environmental conditions, sporting durable enclosures that adhere to IP-rated standards. This resilience makes them apt for outdoor installations.

Overall, the Motorola PTP 300 and PTP 500 series deliver dependable, high-throughput microwave technology, with features that cater to various communication needs while ensuring scalability, security, and ease of use. As networks evolve to accommodate higher bandwidth demands, these systems represent a strong choice for enterprises and service providers alike.