Agilent Technologies E1401-90493 User Manual Page 367
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Chapter 2 367
Performance Verification Tests
47. Tracking Generator Non-Harmonic Spurious Outputs: Agilent E4401B and E4411B (Option
1DN or 1DQ)
75 Ω outputs only: Measure only at start frequencies of 1 MHz and
greater.
3. Press
SGL SWP on the microwave analyzer to activate a single sweep
and wait for the sweep to finish. Press
PEAK SEARCH to locate the
largest spurious response.
4. Verify that the marked signal is not the fundamental or a harmonic
of the fundamental by performing the following steps:
NOTE The following steps are for an Agilent 8563E microwave analyzer, the
steps may be different if you are using another microwave analyzer.
a. Divide the marker frequency by the fundamental frequency (the
analyzer center frequency setting). For example, if the marker
frequency is 30.3 MHz and the fundamental frequency is 10 MHz,
dividing 30.3 MHz by 10 MHz yields 3.03.
b. Round the number calculated in step a to the nearest whole
number. In the example above, 3.03 should be rounded to 3.
Values less than 1 should be rounded up to 1.
c. Multiply the fundamental frequency by the number calculated in
step b. Following the example, multiplying 10 MHz by 3 yields
30 MHz.
d. Calculate the difference between the marker frequency and the
frequency calculated in step c above. Continuing the example, the
difference would be 300 kHz.
e. Due to span accuracy uncertainties in the microwave analyzer,
the marker frequency might not equal the actual frequency. Given
the marker frequency, check if the difference calculated in step d
is within the appropriate tolerance:
For marker frequencies <5 MHz, tolerance =
±200 kHz
For marker frequencies <55 MHz, tolerance =
±750 kHz
For marker frequencies >55 MHz, tolerance =
±10 MHz
f. If the difference in step d is within the indicated tolerance, the
signal in question is the fundamental signal (if the number in
step b = 1) or a harmonic of the fundamental (if the number in
step b >1). This response should be ignored.
5. Verify that the marked signal is a true response and not a random
noise peak by pressing
SINGLE to trigger a new sweep and press
PEAK SEARCH. A true response will remain at the same frequency
and amplitude on successive sweeps but a noise peak will not.
If the marked signal is not the fundamental or a harmonic of the
fundamental and is a true response, continue with step 7.
6. If the marked signal is either the fundamental or a harmonic of the
fundamental or a noise peak, move the marker on the microwave
- Calibration Guide 1
- Contents 5
- 1Calibrating 9
- 10 Chapter 1 10
- Calibrating 10
- Calibration Cycle 11
- 12 Chapter 1 12
- Chapter 1 13 13
- Calibrating 13
- (This test has been deleted.) 13
- 14 Chapter 1 14
- Chapter 1 15 15
- 16 Chapter 1 16
- Chapter 1 17 17
- 18 Chapter 1 18
- Chapter 1 19 19
- 20 Chapter 1 20
- 22 Chapter 1 22
- Chapter 1 23 23
- Before You Start 24
- Test equipment you will need 25
- 8663A P,A 26
- >45 dB 30
- >42 dB 30
- Ω (2 required for Option 1DQ) 31
- Ω Minimum Loss 31
- ≥122 cm (48 in) 32
- ≥91 cm (36 in) 32
- 34 Chapter 2 34
- Chapter 2 35 35
- 36 Chapter 2 36
- Calibration 37
- Ω/1 MΩ until the LED is lit 43
- E4403B, and E4411B 48
- Accuracy 56
- 6. Frequency Span Accuracy: 59
- 7. Noise Sidebands 63
- −10 kHz: 65
- −10 kHz 65
- −20 kHz: 67
- −20 kHz 67
- −30 kHz: 67
- −30 kHz 68
- −100 kHz: 68
- −100 kHz 72
- −1 MHz: 72
- −5 MHz: 73
- −10 MHz: 73
- 9. System-Related Sidebands 75
- 10. Residual FM 78
- →, Mkr → CF 80
- ∆ Mkr1) amplitude, take its 82
- 11. Sweep Time Accuracy 83
- ∆ Mkr1) 85
- – 0 dB from R 92
- Bandwidths 93
- 89.3 mV== 94
- ATmeas–ATref+()10⁄ 96
- ∆Mkr Reading – Total 98
- Resolution Bandwidths 99
- Ω to 75 Ω minimum loss pad 100
- Procedure 101
- Ω input analyzers) should be 103
- Ω Input only) 103
- −57 dBm± 0.1 dB 104
- −8.2 dBmV ± 0.1 dB 104
- 17.On the analyzer, press 106
- Ω input of the analyzer 107
- −90 dBm (−41.25 107
- 110 Chapter 2 110
- Ω input and the dBmV col 111
- Ω input 111
- 112 Chapter 2 112
- Single on the analyzer 112
- Peak Search (or Search) 112
- Ω Input of the analyzer 117
- −90 dBm (with 117
- 30.23dB–= 119
- Uncertainty 125
- →, Mkr →CF 126
- →, Mkr →CF, Peak Search (or 126
- Ω to Type-N (m) 50 Ω 129
- Ω analyzers) or the 130
- Ω analyzers) 130
- Chapter 2 131 131
- Ω−27 dBm 132
- Ω−24 dBm 132
- −25 dBm (50Ω Input only) 133
- E4405B, E4407B, and E4408B 136
- −14 dBm ±0.1 dB 137
- − Channel B Power 138
- −14.07 dBm and Channel B 138
- −20.30 dB 138
- , Auto Align, All 142
- RefAtten 144
- 10 dB Actual 144
- 1 dB Actual 144
- Ω adapter 145
- ActualTotalAtten RefAtten 146
- Chapter 2 149 149
- Ω Input 150
- Equipment Required 157
- −5dBm ±0.2 dB 159
- ±0.05 dB 159
- − Lower Marker 159
- −7dBm ±0.2 dB 160
- Ω, BNC (m) 162
- ±0.1 dB 164
- Ω inputs 165
- ±0.1 dB 167
- ±0.1 dB for the current 167
- Ω inputs (Option 1DP) 168
- ≤100 kHz 169
- Ω load replaces the power 172
- ±0.1 dB for 100 kHz 177
- Setup Change Error FlatError 178
- FlatError 178
- 184 Chapter 2 184
- Chapter 2 185 185
- ↑ will allow you to step 201
- Chapter 2 205 205
- 206 Chapter 2 206
- Chapter 2 209 209
- Chapter 2 211 211
- Ω inputs) 213
- Ω to Type-N (f) 75 Ω 213
- ±0.2 dB 218
- Agilent E4402B 221
- 238 Chapter 2 238
- Chapter 2 241 241
- Agilent E4401B and E4411B 244
- −10 dBm 246
- Ω Input) 247
- E4407B, and E4408B 249
- −10 dBm ±0.1 dB 250
- −20 dBm ±0.1 dB 250
- ∆ Mkr1 or 253
- → CF, Delta 258
- ↑, ↑, ↑. The center 259
- ∆ Mkr1) amplitude 262
- ≥1 kHz, press: SPAN, 4 kHz 266
- ↓, ↓. The center frequency 266
- ±0.10 dB 269
- ≥1 kHz, press SPAN, 4 kHz 276
- Ω to Type-N (f), 75 Ω 290
- Ω directional 291
- Ω analyzer 291
- −24 dBm 293
- ∆ Mkr1) amplitude is the 293
- Table 2-79 298
- _____ dB 302
- Chapter 2 303 303
- Ω Inputs 304
- Ω input only) 307
- 1. Press 308
- Ω Input using a BNC cable 309
- Ω tracking generator, do the 312
- ° to 30° C range, but within 313
- ° to 30° C range 313
- → , Mkr→ CF 314
- ° to 30° C range, but 321
- →, Μκρ→ ΧΦ 322
- Ω tracking 326
- if test 328
- →, Mkr→ CF 329
- 39. Residual Responses 330
- ≥5 ms) to a fast sweep time 333
- E4411B (Option 1DN or 1DQ) 335
- Chapter 2 337 337
- Chapter 2 339 339
- (Option 1DN) 340
- −18 -2 2) 341
- −7 dB vernier setting is 342
- −0.15 = 0.08 − 0.23) 342
- (Option 1DN or 1DQ) 343
- Ω, 1 MHz to 1.5 GHz 344
- Ω power sensor 344
- ≥100 kHz 344
- Ω RF Out 346
- Ω tracking generators only 347
- at 100 kHz ___________ dB 348
- DVM Readout= Level Flatness– 348
- Chapter 2 349 349
- −0.53 dBm, the 354
- −1.23 dB 354
- −1.01 dB 354
- Ω to 75 Ω Minimum loss pad 356
- ⇑ ⇓ arrows to adjust the DAC 357
- −10 dBm. Press 357
- ⇑ (step-up key) to 358
- ⇑ (step up key) to 362
- Ω Option only) 366
- ±200 kHz 367
- ±750 kHz 367
- Response 369
- −10 dBm. Press STORE 371
- Chapter 2 375 375
- ∆t markers 379
- 4. Press 380
- −500 ns and −650 ns 381
- Ω Inputs only) 384
- (or Search) 386
- 9. Record the marker delta ( 386
- AYZ only) 387
- ∆ Mkr1) frequency 392
- 396 Chapter 2 396
- Chapter 2 397 397
- 398 Chapter 2 398
- Ω Input using 400
- Chapter 2 401 401
- BAH and B7E) 406
- °C temperature 409
- ≥–25 dBm 410
- 412 Chapter 2 412
- <−25 dBm 414
- ≤−20 dBm 415
- <–25 415
- ≤–20 dBm 415
- 25.Continue with Part 2 417
- Amplitude Accuracy = 421
- Measured Amplitude Amptd 421
- ActualTotalAtten– RefAtten 421
- +()– 40dB+ 421
- 422 Chapter 2 422
- ActualTotalAtten–RefAtten 425
- Ω Power Sensor 428
- ±293.3 µHz 429
- ±0.000072 ppm 429
- ±0.000070 ppm 429
- GHz signal 453
- Test Record 479
- Ω Input (No Option 1DP) 617
- 634 Chapter 3 634
- If You Have a Problem 635
- 636 Chapter 4 636
- Check the Basics 637
- Read the Warranty 638
- Service Options 638
- Chapter 4 639 639
- Service Tag 640
- Original Packaging 640
- Figure 4-1 641
- Other Packaging 642
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