Векторный анализатор цепей E5063A
Оптимальное сочетание цены и производительности
Характеристики
Производитель
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Keysight Technologies
Модель
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E5063A
Векторный анализатор цепей E5063A
ОСНОВНЫЕ ОСОБЕННОСТИ
Уменьшение стоимости тестирования пассивных ВЧ компонентов
Keysight E5063A серии ENA – это приемлемый по цене лабораторный векторный анализатор цепей для тестирования простых пассивных компонентов, таких как антенны, фильтры, кабели или разъемы, в диапазоне частот до 18 ГГц. В нем используется выверенная измерительная система приборов серии ENA, устанавливающих новый отраслевой стандарт для повышения эффективности и производительности. Анализатор готов к модернизации по мере развития технологий.
Уменьшение стоимости тестирования пассивных ВЧ компонентов
Keysight E5063A серии ENA – это приемлемый по цене лабораторный векторный анализатор цепей для тестирования простых пассивных компонентов, таких как антенны, фильтры, кабели или разъемы, в диапазоне частот до 18 ГГц. В нем используется выверенная измерительная система приборов серии ENA, устанавливающих новый отраслевой стандарт для повышения эффективности и производительности. Анализатор готов к модернизации по мере развития технологий.
- Тестирования широкой номенклатуры компонентов с универсальным комплектом для измерения S-параметров с двумя портами 50 Ом
- Расширение возможностей измерений с опцией 010 для анализа во временной области
- Упрощение разработки и проектирования печатных плат благодаря специализированному интерфейсу пользователя в опции 011
- Значительное повышение эффективности и производительности благодаря согласованной системе измерений
- Опции для обновления и модернизации в любое время
Документы
System Dynamic Range
Description | Specification | Typical |
System dynamic range at test port1 | ||
(IF Bandwidth = 3 kHz) | 63 dB | |
100 kHz to 300 kHz | 68 dB | |
300 kHz to 8.5 MHz | 91 dB | |
8.5 to 100 MHz | 92 dB | |
100 MHz to 4.34 GHz | 81 dB | |
4.34 to 8.5 GHz | 75 dB | |
8.5 to 13 GHz | 65 dB | |
13 to 16 GHz | 62 dB | |
16 to 18 GHz | ||
(IF Bandwidth = 10 Hz) | ||
50 kHz to 100 kHz | 88 dB | |
100 kHz to 300 kHz | 88 dB | 92 dB |
300 kHz to 8.5 MHz | 93 dB | 97 dB |
8.5 to 100 MHz | 116 dB | 122 dB |
100 MHz to 4.34 GHz | 117 dB | 122 dB |
4.34 to 8.5 GHz | 106 dB | 112 dB |
8.5 to 13 GHz | 100 dB | 106 dB |
13 to 16 GHz | 90 dB | 100 dB |
16 to 18 GHz | 87 dB | 93 dB |
1. The test port dynamic range is calculated as the difference between the test port rms noise floor and the source maximum output power. The effective dynamic range must take measurement uncertainty and interfering signals into account.
Uncorrected System Performance
User correction: OFF
System error correction: ON
Specification (dB) | ||||||||
Description |
100 kHz to 300 kHz | 300 kHz to 1 MHz | 1 to 100 MHz | 100 MHz to 3 GHz | 3 to 6 GHz | 6 to 10 GHz | 10 toм13 GHz | 13 to 18 GHz |
Directivity | 10 dB | 10 dB | 25 dB | 25 dB | 20 dB | 15dB | 10 dB | 10 dB |
Source match | 20 dB | 20 dB | 25 dB | 25 dB | 20 dB | 15dB | 15 dB | 15 dB |
Load match | 7 dB (typ.) | 11 dB (typ.) | 14 dB | 11 dB | 10 dB | 7dB | 8 dB (typ.) | 6 dB (typ.) |
Reflection tracking | ± 3.0 dB | ± 3.0 dB | ± 1.0 dB | ± 1.0 dB | ± 1.0 dB | ± 1.0 dB | ± 1.0 dB | ± 1.0 dB |
Transmission tracking | ± 3.0 dB | ± 3.0 dB | ± 1.0 dB | ± 1.0 dB | ± 1.0 dB | ± 1.0 dB | ± 1.0 dB | ± 1.0 dB |
Test Port Output (Source)
Test port output frequency
Description | Specification | Typical |
Frequency range | Frequency can be set from 50 kHz. The performance data from 50 to 100 kHz is typical. | |
Option 205 | 100 kHz to 500 MHz | |
Option 215 | 100 kHz to 1.5 GHz | |
Option 235 | 100 kHz to 3 GHz | |
Option 245 | 100 kHz to 4.5 GHz | |
Option 265 | 100 kHz to 6.5 GHz | |
Option 285 | 100 kHz to 8.5 GHz | |
Option 2D5 | 100 kHz to 14 GHz | |
Option 2H5 | 100 kHz to 18 GHz | |
Resolution | 1 Hz (100 kHz to 6.5 GHz) | |
2 Hz (6.5 to 13 GHz) | ||
11 Hz (13 to 18 GHz) | ||
Source stability | ± 7 ppm (5 to 40 ºC) | |
CW accuracy | ± 7 ppm |
Test port output power
Description | Specification | Typical |
Nominal power (preset power) | –5 dBm | |
Range 50 kHz to 100 kHz 100 kHz to 300 kHz 300 kHz to 8.5 GHz 8.5 to 18 GHz |
–20 to –5 dBm –20 to 0 dBm –15 to –5 dBm |
–20 to –5 dBm |
Resolution | 0.05 dB | |
Level accuracy At 50 MHz, –5 dBm, absolute (level flatness)1 50 kHz to 300 kHz 300 kHz to 1 MHz 1 MHz to 4.34 GHz 4.34 to 8.5 GHz 8.5 to 12 GHz 12 to 18 GHz |
± 0.9 dB ± 3.7 dB ± 2.0 dB ± 1.0 dB ± 1.6 dB ± 3.6 dB ± 5.8 dB |
|
Level linearity2 –10 to –5 dBm, 50 kHz to 300 kHz –10 to 0 dBm, 300 kHz to 8.5 GHz –10 to –5 dBm, 8.5 to 18 GHz –20 to –10 dBm, 50 kHz to 8.5 GHz –15 to –10 dBm, 8.5 to 18 GHz |
± 1.6 dB ± 1.6 dB ± 1.8 dB ± 2.7 dB ± 2.9 dB |
1. Level accuracy of other frequencies is taken at –5 dBm, relative to 50 MHz reference unless otherwise stated. Level accuracy includes averaged total (non-)
harmonics power. Its transient factor is not included.
2. Level linearity given is relative to –5 dBm unless otherwise stated. Level linearity includes averaged total (non-) harmonics power. The level accuracy needs
to be taken into account for test port output power level. Its transient factor is not included.
harmonics power. Its transient factor is not included.
2. Level linearity given is relative to –5 dBm unless otherwise stated. Level linearity includes averaged total (non-) harmonics power. The level accuracy needs
to be taken into account for test port output power level. Its transient factor is not included.
Test Port Input
Trace noise
Description | Specification | Typical |
Test port input level Maximum input level |
+6 dBm | |
Crosstalk 50 kHz to 100 kHz 100 kHz to 300 kHz 300 kHz to 8.5 MHz 8.5 MHz to 4.34 GHz 4.34 to 6 GHz 6 to 13 GHz 13 to 16 GHz 16 to 18 GHz |
–88 dB –93 dB –115 dB –105 dB –100 dB –90 dB –85 dB |
–88 dB |
Test Port Noise Floor (IFBW=1 Hz) 50 kHz to 100 kHz 100 kHz to 8.5 MHz 8.5 to 100 MHz 100 MHz to 4.34 GHz 4.34 to 8.5 GHz 8.5 to 13 GHz 13 to 16 GHz 16 to 18 GHz |
–103 dBm –126 dBm –127 dBm –116 dBm –115 dBm –105 dBm –102 dBm |
–103 dBm |
Compression level (at maximum test port input level = +6 dBm) Magnitude 50 kHz to 1 MHz 1 MHz to 4.34 GHz 4.34 to 13 GHz 13 to 18 GHz |
± 0.2 dB ± 0.2 dB ± 0.2 dB ± 0.2 dB |
|
Phase 50 kHz to 1 MHz 1 MHz to 4.34 GHz 4.34 to 13 GHz 13 to 18 GHz |
± 5 deg. ± 1.5 deg. ± 6 deg. ± 10 deg. |
Trace noise
Description |
Specification |
Typical |
(at maximum output power level of sweep range) | ||
Magnitude | ||
Transmission: 50 kHz to 100 kHz, 3 kHz IFBW 100 kHz to 300 kHz, 3 kHz IFBW 300 kHz to 8.5 MHz, 3 kHz IFBW 8.5 MHz to 4.34 GHz, 70 kHz IFBW 4.34 to 8.5 GHz, 70 kHz IFBW 8.5 to 13 GHz, 70 kHz IFBW 13 to 16 GHz, 70 kHz IFBW 16 to 18 GHz, 70 kHz IFBW |
8 mdB rms 6 mdB rms 5 mdB rms 10 mdB rms 15 mdB rms 25 mdB rms 30 mdB rms |
8 mdB rms 5 mdB rms 3 mdB rms 2 mdB rms 5 mdB rms 8 mdB rms 15 mdB rms 20 mdB rms |
Reflection: 50 kHz to 100 kHz, 3 kHz IFBW 100 kHz to 300 kHz, 3 kHz IFBW 300 kHz to 8.5 MHz, 3 kHz IFBW 8.5 MHz to 4.34 GHz, 70 kHz IFBW 4.34 to 8.5 GHz, 70 kHz IFBW 8.5 to 13 GHz, 70 kHz IFBW 13 to 16 GHz, 70 kHz IFBW 16 to 18 GHz, 70 kHz IFBW |
16 mdB rms 10 mdB rms 9 mdB rms 20 mdB rms 30 mdB rms 35 mdB rms 45 mdB rms |
16 mdB rms 7 mdB rms 4 mdB rms 3 mdB rms 10 mdB rms 18 mdB rms 20 mdB rms 30 mdB rms |
Phase | ||
Transmission: 50 kHz to 100 kHz, 3 kHz IFBW 100 kHz to 300 kHz, 3 kHz IFBW 300 kHz to 8.5 MHz, 3 kHz IFBW 8.5 MHz to 4.34 GHz, 70 kHz IFBW 4.34 to 8.5 GHz, 70 kHz IFBW 8.5 to 13 GHz, 70 kHz IFBW 13 to 16 GHz, 70 kHz IFBW 16 to 18 GHz, 70 kHz IFBW |
0.05 deg rms 0.04 deg rms 0.035 deg rms 0.066 deg rrns 0.1 deg rms 0.17 deg rms 0.2 deg rms |
0.05 deg rms 0.03 deg rms 0.02 deg rms 0.015 deg rms 0.04 degrrns 0.06 deg rms 0.1 deg rms 0.13 deg rms |
Reflection: 50 kHz to 100 kHz, 3 kHz IFBW 100 kHz to 300 kHz, 3 kHz IFBW 300 kHz to 8.5 MHz, 3 kHz IFBW 8.5 MHz to 4.34 GHz, 70 kHz IFBW 4.34 to 8.5 GHz, 70 kHz IFBW 8.5 to 13 GHz, 70 kHz IFBW 13 to 16 GHz, 70 kHz IFBW 16 to 18 GHz, 70 kHz IFBW |
0.1 deg rms 0.066 deg rms 0.06 deg rms 0.13 deg rms 0.2 deg rms 0.23deg rms 0.3 deg rms |
0.1 deg rms 0.05 deg rms 0.03 deg rms 0.02deg rms 0.07 degrrns 0.12 deg rms 0.14 deg rms 0.2 deg rms |
Stability 1
Description | Specification | Typical |
Magnitude | ||
Transmission: 100 kHz to 300 kHz 300 kHz to 6 GHz 6 to 12 GHz 12 to 18 GHz Reflection: 100 kHz to 300 kHz 300 kHz to 6 GHz 6 to 12 GHz 12 to 18 GHz |
± 0.02 dB/°C ± 0.01 dB/°C ± 0.025 dB/°C ± 0.04 dB/°C ± 0.02 dB/°C ± 0.02 dB/°C ± 0.035 dB/°C ± 0.05 dB/°C |
|
Phase | ||
Transmission: 100 kHz to 300 kHz 300 kHz to 6 GHz 6 to 12 GHz 12 to 18 GHz Reflection: 100 kHz to 300 kHz 300 kHz to 6 GHz 6 to 12 GHz 12 to 18 GHz |
± 0.4 deg/°C ± 0.2 deg/°C ± 0.5 deg/°C ± 0.6 deg/°C ± 0.4 deg/°C ± 0.2 deg/°C ± 0.5 deg/°C ± 0.6 deg/°C |
Dynamic accuracy 1,2
Description | Specification | Typical |
Magnitude 6 dBm –30 dBm –100 dBm –110 dBm |
± 0.281 dB ± 0.023 dB ± 1.070 |
± 3.00 dB |
Phase 6 dBm –30 dBm –100 dBm |
± 10.20 deg ± 0.15 deg ± 7.53 deg |
1. Dynamic accuracy is verified with the following measurements:
– Compression over frequency
– IF linearity at two frequencies (1 MHz and 2 GHz) using a reference level of –10 dBm for an input power range of 0 to –60 dBm. For value below –60 dBm,
refer to “VNA Receiver Dynamic Accuracy Specifications and Uncertainties N5247-90003”
https://literature.cdn.keysight.com/litweb/pdf/N5247-90003.pdf
2. Applies to the units with Serial Number Prefix MY542/SG542 and above
– Compression over frequency
– IF linearity at two frequencies (1 MHz and 2 GHz) using a reference level of –10 dBm for an input power range of 0 to –60 dBm. For value below –60 dBm,
refer to “VNA Receiver Dynamic Accuracy Specifications and Uncertainties N5247-90003”
https://literature.cdn.keysight.com/litweb/pdf/N5247-90003.pdf
2. Applies to the units with Serial Number Prefix MY542/SG542 and above