We are providing test results performed by us of the Taramp's T-800.1 2ohm model.
We are using our professional Next-USB System with Level 3 AC/DC 1200A TH HE Sensor for power output measuring and our Level 2 AC/DC 400A Sensor for power input measuring.
We are using our own contracted import company - JFA Eletronicos for regulated 115/220v AC to DC Power Supply adjustable from 12.8-14.4vDC.
We are using Centech Infrared Temperature gun for monitoring ambient and Amplifier temperature.
We are using 8 1,000w Resistive banks mounted to Steel bars for output load and heat dissipation.
We are using SPL-Lab Software v2.6.10 in both Power and RTA mode.
Amplifier rated output-
12.6v 78F 1KHz 8%THD Maximum output-
2ohm- 800w
4ohm- 456w
Our Test Results-
(Because we provide more test data than anyone else, it will be impossible to accurately compare our data with another tester without knowing all of their values as well.)
QoSFRRTAT- ("cause-for-tat")
Quality of Signal Frequency Response Real Time Analyzing Test
This tests the FR amplitude curve by measuring the signal amplitude WITH a fixed load on it that is allowed to receive variables during test such as increase in temperature, etc that would likely happen in real world.
8ohm Test ( We take LONG break intervals between each ohm load test so please try not to post replies before we complete 2 more posts completing the rest of the Ohm load testing.
It could be hours or days.. )
Ambient Environment- 71.4F
29Hz
12.8vDC
338wDC
224wAC
7.4ohm
1.5%THD
0.94PF
92.3F
Efficiency- 66.3%
29Hz
12.8vDC
472wDC
327wAC
7.6ohm
10.2%THD
0.96PF
90.8F
Efficiency- 69.3%
100Hz
12.8vDC
336wDC
219wAC
7.5ohm
1.1%THD
0.94PF
93.2F
Efficiency- 65.2%
100Hz
12.8vDC
475wDC
331wAC
7.5ohm
4.2%THD
0.96PF
90.8F
Efficiency- 69.7%
1000Hz
12.8vDC
345wDC
211wAC
7.9ohm
1.5%THD
0.93PF
93.6F
Efficiency- 61.2%
1000Hz
12.8vDC
489wDC
304wAC
8.1ohm
4.8%THD
0.94PF
86.9F
Efficiency- 62.2%
30Hz
14.3vDC
438wDC
271wAC
7.7ohm
1.1%THD
0.94PF
96.4F
Efficiency- 61.9%
30Hz
14.3vDC
586wDC
409wAC
7.6ohm
5.3%THD
0.95PF
98.9F
Efficiency- 69.8%
100Hz
14.3vDC
466wDC
290wAC
7.6ohm
1.2%THD
0.94PF
98.0F
Efficiency- 62.2%
100Hz
14.3vDC
599wDC
409wAC
7.7ohm
4.3%THD
0.96PF
98.9F
Efficiency- 68.3%
1000Hz
14.4vDC
510wDC
256wAC
8.2ohm
1.1%THD
0.94PF
98.0F
Efficiency- 50.2%
1000Hz
14.3vDC
611wDC
387wAC
8.5ohm
13.3%THD
0.96PF
98.6F
Efficiency- 63.3%
We keep documented proof of all obtained values by freezing the software and taking a picture of the results before next test.
We are using our professional Next-USB System with Level 3 AC/DC 1200A TH HE Sensor for power output measuring and our Level 2 AC/DC 400A Sensor for power input measuring.
We are using our own contracted import company - JFA Eletronicos for regulated 115/220v AC to DC Power Supply adjustable from 12.8-14.4vDC.
We are using Centech Infrared Temperature gun for monitoring ambient and Amplifier temperature.
We are using 8 1,000w Resistive banks mounted to Steel bars for output load and heat dissipation.
We are using SPL-Lab Software v2.6.10 in both Power and RTA mode.
Amplifier rated output-
12.6v 78F 1KHz 8%THD Maximum output-
2ohm- 800w
4ohm- 456w
Our Test Results-
(Because we provide more test data than anyone else, it will be impossible to accurately compare our data with another tester without knowing all of their values as well.)
QoSFRRTAT- ("cause-for-tat")
Quality of Signal Frequency Response Real Time Analyzing Test
This tests the FR amplitude curve by measuring the signal amplitude WITH a fixed load on it that is allowed to receive variables during test such as increase in temperature, etc that would likely happen in real world.
8ohm Test ( We take LONG break intervals between each ohm load test so please try not to post replies before we complete 2 more posts completing the rest of the Ohm load testing.
It could be hours or days.. )
Ambient Environment- 71.4F
29Hz
12.8vDC
338wDC
224wAC
7.4ohm
1.5%THD
0.94PF
92.3F
Efficiency- 66.3%
29Hz
12.8vDC
472wDC
327wAC
7.6ohm
10.2%THD
0.96PF
90.8F
Efficiency- 69.3%
100Hz
12.8vDC
336wDC
219wAC
7.5ohm
1.1%THD
0.94PF
93.2F
Efficiency- 65.2%
100Hz
12.8vDC
475wDC
331wAC
7.5ohm
4.2%THD
0.96PF
90.8F
Efficiency- 69.7%
1000Hz
12.8vDC
345wDC
211wAC
7.9ohm
1.5%THD
0.93PF
93.6F
Efficiency- 61.2%
1000Hz
12.8vDC
489wDC
304wAC
8.1ohm
4.8%THD
0.94PF
86.9F
Efficiency- 62.2%
30Hz
14.3vDC
438wDC
271wAC
7.7ohm
1.1%THD
0.94PF
96.4F
Efficiency- 61.9%
30Hz
14.3vDC
586wDC
409wAC
7.6ohm
5.3%THD
0.95PF
98.9F
Efficiency- 69.8%
100Hz
14.3vDC
466wDC
290wAC
7.6ohm
1.2%THD
0.94PF
98.0F
Efficiency- 62.2%
100Hz
14.3vDC
599wDC
409wAC
7.7ohm
4.3%THD
0.96PF
98.9F
Efficiency- 68.3%
1000Hz
14.4vDC
510wDC
256wAC
8.2ohm
1.1%THD
0.94PF
98.0F
Efficiency- 50.2%
1000Hz
14.3vDC
611wDC
387wAC
8.5ohm
13.3%THD
0.96PF
98.6F
Efficiency- 63.3%
We keep documented proof of all obtained values by freezing the software and taking a picture of the results before next test.