PS2M725 – LTE725, Tx 758 ~ 803 MHz, Rx 703 ~ 748 MHz
AWT’s PIM Analyzers are ideal for production and laboratory. These instruments are very accurate, yet highly reliable and built for true continuous 24/7 operation. The complete system consists only of one unit, making set-up easy and operation convenient.
- Description
- Additional information
- Accessories
- Specifications
Description
PS2M725 – LTE725, Tx 758 ~ 803 MHz, Rx 703 ~ 748 MHz
AWT’s PIM Analyzers are ideal for production and laboratory. These instruments are very accurate, yet highly reliable and built for true continuous 24/7 operation. The complete system consists only of one unit, making set-up easy and operation convenient.
With the introduction of new wireless technologies like LTE, and LTE-A, network operators demand RF components that offer excellent PIM characteristics. AWT’s PIM Analyzers are well suited for this task. With -172dBc sensitivity, our analyzers detect all PIM issues of tested RF components. Engineers appreciate the high accuracy of the IM measurements even with 24/7 operation.
Features
- Precision PIM Analyzer for production and laboratory.
- True 24/7 operation.
- 3 Measurement modes: PIM Analyzer, PIM over Time, PIM over Frequency (Frequency Sweep).
- Forward and reverse PIM measurements ( 2-port).
- Upgrade to dual-band possible.
Passive Intermodulation (PIM) analyzers measure the amount of unwanted intermodulation signals, generated by passive components. Increasing demand for data bandwidth mandates optimally performing, high quality network elements. Wireless carriers use exclusively high quality low PIM components to ensure optimal performance of their networks – today and in the future.
PIM is caused by RF components that show non-linear frequency behavior. Even the most careful production process can introduce PIM. Therefore, every single component has to be tested. It is paramount for manufacturersto minimize PIM during both, the design phase and the production process.
RF Components that may cause PIM:
- Cables
- Connectors
- Antennas
- Attenuators, Loads
- Surge Protectors
- Filters, Diplexers, Duplexers
- Combiners, Splitters, Couplers
Additional information
Weight | 36 kg |
---|---|
Dimensions | 48.8 × 71.9 × 27.8 cm |
PACC2 | Accessory Kit: low PIM cable 3m / 10ft, low PIM load 50/10W, PIM <-165 dBc @ 2*43dBm, 690-2800 MHz, (4) adapters, torque wrench with hard carry case. | ||
PACC2L | Accessory Kit: low PIM cable 3m / 10ft, low PIM load 100W, PIM <-165dBc @ 2*43dBm, 380-2800 MHz, (4) adapters, torque wrench with hard carry case | ||
PLOAD100 | Low PIM Load 100W, PIM < -165 dBc @ 2*43W, 690-2800 MHz, DIN 7/16 (f) | ||
PLOAD100L | Low PIM Load 100W, PIM < -165 dBc @ 2*43W, 380-2800 MHz, DIN 7/16 (f) | ||
PIMGEN | PIM Source: Generator with preset PIM value -80dBm (+/-10). Quick system test. Ideal for test and training. | ||
LIC308DMDM-1M | Low PIM cable 1m (3ft), PIM < -165dBc @ 2x43dBm, DIN(m)-DIN(m) | ||
LIC308DMNM-1M | Low PIM cable 1m (3ft), PIM < -165dBc @ 2x43dBm, DIN(m)-N(m) | ||
ADA-DMDF | Connector Saver. Adapter DIN(m)-DIN(f), PIM <-165 dBc @ 2×43 dBm |
Transmitter |
||
Carrier Power | +20 to +44 dBm (46 dBm optional) | |
Power Accuracy | +/- 0.35 dB | |
Frequency Accuracy | 2 ppm | |
Reverse Pwr. Protection | +43 dBm for 5 sec |
Receiver |
|
Reverse IM @ 2x43dBm Forward IM @ 2x43dBm |
-129 dBm / -172 dBc typ. -125 dBm / -168 dBc typ. |
Noise Floor | -140 dBm (300 Hz BW) |
DynamicRange(typical) | > 96 dB (ref: -70 dBm) |
Reverse Power Protection | +43 dBm for 5 sec |
Operational Input Power | -40 dBm RMS |
Max Input Power | 0 dBm |
Measurement Accuracy | +/- 1.0 dB @ 2 x 43 dBm |
Warm-up time (for full measurement accuracy) | 10 mins |
Dimensions / Weight / Environment / Electrical |
|
Dimensions All units (except E-GSM) E-GSM units |
488 x 653 x 278 (mm) 488 x 719 x 278 (mm) |
Weight All units (except E-GSM) E-GSM units |
35 kg 36 kg |
Temperature | 0 °C to +40 °C |
Humidity | 80 %, RH (non condensing) |
Protection | IP20 (indoor use) |
AC Power | 100 to 240V 50/60 Hz |
Power Consumption | 750 Watts (VA) |