0

Out of 0 Ratings

Owner's of the Agilent Technologies Computer Hardware U2802A gave it a score of 0 out of 5. Here's how the scores stacked up:
  • Reliability

    0 out of 5
  • Durability

    0 out of 5
  • Maintenance

    0 out of 5
  • Performance

    0 out of 5
  • Ease of Use

    0 out of 5
of 81
 
Product Specifications 4
Agilent U2802A 31-Channel Thermocouple Input User’s Guide 55
With zeroing, the offset errors from the DAQ and the U2802A can be
removed, and replaced with the zeroing error.
Based on the ITS-90 Thermocouple table, a J- type thermocouple will
output 33.102 mV at 600 °C, and changes at a rate of approximately
59 µV/°C. This corresponds to (33.102 mV × 97.673) or 3.2332 V at the
input of the DAQ.
Hence, E
DAQ,
E
SIG_COND,
and E
ZEROING
are calculated as follows:
E
DAQ
= 0.02% × 33.102 mV
= 6.62 µV
= 6.62 µV ÷ 59 µV/°C
= 0.112 °C
E
SIG_COND
= (0.06% × 33.102 mV) ÷ 59 µV/ °C
= 0.337 °C
E
ZEROING
= 6 µV ÷ 59 µV/°C
= 0.102 °C
Next, the cold junction sensor error is calculated.
At 23 °C, a J- type thermocouple output voltage changes at a rate of
52 µV/ °C. Thus, the CJ sensor error of 1 °C at 23 °C corresponds to
52uV/ °C × 1°C = 52 µV.
At 600 °C,
E
CJC
= 52 µV ÷ 59 µV/°C
= 0.88 °C
U2802A_UG.book Page 55 Tuesday, January 8, 2008 10:24 AM