Posts Tagged ‘IC-7600’
MFJ-1026 Noise Canceller Tests At VA7MM
courtesy: www.mfjenterprises.com/ |
Mark, VA7MM, has been testing out his newly-acquired MFJ-1026 Noise Canceller and has provided several videos of the noise canceller in action.
Like so many other hams, Mark's suburban location has seen a gradually rising noise floor and the noise heard in this video is from an off-site location within his local neighbourhood, located about 400m away.
The noise canceller requires a separate 'noise antenna' in order to cancel any noise on the main receiving antenna and for all of the tests shown below, Mark's noise antenna was a Cushcraft R-7 vertical while using an Icom IC-7600 transceiver for listening.
Test 1 shows the noise canceller being used while listening to a broadcast station on 6.0 MHz:
Test 2 shows the canceller's effect on raw noise while viewing in Spectran:
Test 3 shows the canceller's effect on a 40m CW signal:
Test 4 shows the effect of just the IC-7600's noise blanker on the offending noise:
Mark's comments:
Living in the noise cloud one must resort to special measures to use affected portions of spectrum. I recently purchased an MFJ-1026 noise canceller and have been testing the unit and have attached videos demonstrating the unit’s performance. You will see examples of raw noise, SW broadcast and 40 m CW signals with the unit being switched in and out. Also for comparison is the noise blanker in the IC-7600 failing to eliminate the same noise.
Conclusions:
- the unit is able to eliminate noise in most instances when adjusted properly
- the noise sense antenna is critical and several different switchable noise sense antennas may be required for good performance
- setting up on AM mode with Spectran helps with fine adjustment
- it outperforms the radio’s noise blanker in all cases tested
With proper tuning and set up, it looks like the MFJ-1026 can make a worthwhile improvement in unwanted noise reduction. Mark will also be testing and comparing a Timewave ANC-4 Noise Canceller with the MFJ and any videos received will be published here.
MFJ-1026 Noise Canceller Tests At VA7MM
courtesy: www.mfjenterprises.com/ |
Mark, VA7MM, has been testing out his newly-acquired MFJ-1026 Noise Canceller and has provided several videos of the noise canceller in action.
Like so many other hams, Mark's suburban location has seen a gradually rising noise floor and the noise heard in this video is from an off-site location within his local neighbourhood, located about 400m away.
The noise canceller requires a separate 'noise antenna' in order to cancel any noise on the main receiving antenna and for all of the tests shown below, Mark's noise antenna was a Cushcraft R-7 vertical while using an Icom IC-7600 transceiver for listening.
Test 1 shows the noise canceller being used while listening to a broadcast station on 6.0 MHz:
Test 2 shows the canceller's effect on raw noise while viewing in Spectran:
Test 3 shows the canceller's effect on a 40m CW signal:
Test 4 shows the effect of just the IC-7600's noise blanker on the offending noise:
Mark's comments:
Living in the noise cloud one must resort to special measures to use affected portions of spectrum. I recently purchased an MFJ-1026 noise canceller and have been testing the unit and have attached videos demonstrating the unit’s performance. You will see examples of raw noise, SW broadcast and 40 m CW signals with the unit being switched in and out. Also for comparison is the noise blanker in the IC-7600 failing to eliminate the same noise.
Conclusions:
- the unit is able to eliminate noise in most instances when adjusted properly
- the noise sense antenna is critical and several different switchable noise sense antennas may be required for good performance
- setting up on AM mode with Spectran helps with fine adjustment
- it outperforms the radio’s noise blanker in all cases tested
With proper tuning and set up, it looks like the MFJ-1026 can make a worthwhile improvement in unwanted noise reduction. Mark will also be testing and comparing a Timewave ANC-4 Noise Canceller with the MFJ and any videos received will be published here.