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E8362/3/4C

Receiver dynamic range

Description Specification (dB) Typical (dB) at direct Supplemental information

at test port

receiver access input

Dynamic range

Standard configuration and standard power range (E8362/3/4C) or standard configuration and extended

power range and bias-tees (E8362/3/4C-Option UNL)

10 to 45 MHz

82 N/A

45 to 500 MHz

94 N/A

500 MHz to 2 GHz 119 N/A

2 to 10 GHz 122 N/A

10 to 20 GHz 125 N/A

20 to 30 GHz 114 N/A Option 016 degrades performance by 2 dB

30 to 40 GHz 111 N/A Option 016 degrades performance by 2 dB

40 to 50 GHz 111 N/A Option 016 degrades performance by 2 dB

Configurable test set and standard power range (E8362/3/4C-Option 014) or configurable test set and extended

power range and bias-tees (E8362/3/4C-Option 014 and Option UNL)

10 to 45 MHz

82 132

45 to 500 MHz

94 132

500 MHz to 2 GHz 119 138

2 to 10 GHz 122 137

10 to 20 GHz 124 139

20 to 40 GHz 113 125 Option 016 degrades performance by 2 dB

40 to 45 GHz 110 122 Option 016 degrades performance by 2 dB

45 to 50 GHz 109 120 Option 016 degrades performance by 2 dB

1. The receiver dynamic range is calculated as the difference between the noise floor

and the receiver maximum input level. The effective dynamic range must take

measurement uncertainties and interfering signals into account.

2. The test port receiver dynamic range is calculated as the difference between the

test port noise floor and the receiver maximum input level. The effective dynamic

range must take measurement uncertainties and interfering signals into account.

3. The direct receiver access input receiver dynamic range is calculated as the

difference between the direct receiver access input noise floor and the receiver

maximum input level. The effective dynamic range must take measurement

uncertainties and interfering signals into account. This set-up should only be used

when the receiver input will never exceed its compression or damage level. When

the analyzer is in segment sweep mode, the analyzer can have pre-defined frequency

segments which will output a higher power level when the extended dynamic range is

required (i.e. devices with high insertion loss), and reduced power when compression

or receiver damage may occur (i.e. devices with low insertion loss). The extended

range is only available in one-path transmission measurements.

4. Typical performance.

5. May be degraded by 10 dB at particular frequencies (multiples of 5 MHz) below

500 MHz due to spurious receiver residuals. Methods are available to regain the full

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