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E-Series E9300 Average Power Sensor Specifications (Continued)
Switch point data
The E9300 power sensors have two paths as shown in Table 7� The power meter automatically selects the proper power level path� To
avoid unnecessary switching when the power level is near the switch point, switching point hysteresis has been added�
E9300 “A” suffix sensors example:
– Hysteresis causes the low power path to remain selected until approximately –9�5 dBm as the power level is increased, above this
power the high power path will be selected� The high power path will remain selected until approximately –10�5 dBm is reached as
the signal level decreases, below this power the low power path will be selected�
Switching point linearity:
– Typically = ± 0�5% (= ± 0�02 dB)
Switching point hysteresis:
– 0�5 dB typical
Table 11. E9300 Series sensor switch point specification.
E9300 sensor suffix
Conditions
1
Zero set
Zero drift
2
Measurement noise
3
A
Lower power path (15 to 75% RH)
500 pW
150 pW
700 pW
Lower power path (75 to 95% RH)
500 pW
4,000 pW
700 pW
High power path (15 to 75% RH)
500 nW
150 nW
500 nW
High power path (75 to 95% RH)
500 nW
3000 nW
500 nW
B
Lower power path (15 to 75% RH)
500 nW
150 nW
700 nW
Lower power path (75 to 95% RH)
500 nW
4 μW
700 nW
High power path (15 to 75% RH)
500 μW
150 μW
500 μW
High power path (75 to 95% RH)
500 μW
3000 mW
500 μW
H
Lower power path (15 to 75% RH)
5 nW
1.5 nW
7 nW
Lower power path (75 to 95% RH)
5 nW
40 μW
7 nW
High power path (15 to 75% RH)
5 μW
1.5 μW
5 μW
High power path (75 to 95% RH)
5 μW
30 mW
5 μW
1� RH is the abbreviation for relative humidity�
2� Within 1 hour after zero set, at a constant temperature, after a 24-hour warm-up of the power meter with power sensor connected�
3� The number of averages at 16 for normal mode and 32 for x2 mode, at a constant temperature, measured over a one minute interval and two standard
deviations�