BSI 20/30409222 DC 2020
$13.70
BS EN IEC 62037-5. Passive RF and microwave devices, intermodulation level measurement – Part 5. Measurement of passive intermodulation in filters
| Published By | Publication Date | Number of Pages |
| BSI | 2020 | 14 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 5 | FOREWORD |
| 7 | PASSIVE RF AND MICROWAVE DEVICES, INTERMODULATION LEVEL MEASUREMENT – 1 Scope 2 Normative references 3 Abbreviations 4 General comments on PIM testing of filter assemblies 4.1 Sources of error: back-to-back filters |
| 8 | Figure 1 – Typical receive band PIM test set-up 4.2 Environmental and dynamic PIM testing |
| 9 | 4.3 General test procedure 5 Example test equipment schematics for filter testing 5.1 General |
| 10 | Table 1 – Summary table referencing example test equipment schematics for measuring PIM on filter-type devices 5.2 Transmit band testing Figure 3 – Typical test equipment schematic for measuring transmit-band, forward, passive IM products on an N-port DUT using two high-power carriers |
| 11 | 5.3 Receive band testing: dual high-power carriers Figure 4 – Typical test equipment schematic for measuring receive-band, forward, passive IM products on an N-port DUT, using two high-power carriers Figure 5 – Typical test equipment schematic for measuring receive-band, reverse, passive IM products on an N-port DUT, using two high-power carriers |
| 12 | Figure 6 – Typical test equipment schematic for measuring receive-band, passive IM products on an N-port DUT, using two high-power carriers 5.4 Receive band testing: injected interferer |
| 13 | Figure 7 – Typical test equipment schematic for measuring receive-band, forward, passive IM products on an N-port DUT, using the injected interferer technique Figure 8 – Typical test equipment schematic for measuring receive-band, reverse, passive IM products on an N-port DUT, using the injected interferer technique |
| 14 | Figure 9 – Typical test equipment schematic for measuring receive-band, passive IM products on an N-port DUT, using the injected interferer technique |
