Анализатор источников сигналов Keysight E5052B работает в диапазоне частот от 10 МГц до 7 ГГц и имеет высокие характеристики и широкие функциональные возможности. Анализатор E5052B обеспечивает самую высокую в мире производительность измерений и удобство использования при определении характеристик генераторов, управляемых напряжением (ГУН) и других типов источников высокочастотных сигналов, а также при измерении джиттера тактовых сигналов в высокоскоростных системах передачи данных.
Диапазон частот анализатора E5052B может быть расширен до 26,5 ГГц при использовании совместно с СВЧ преобразователем с понижением частоты Keysight E5053A и до 110 ГГц при использовании совместно с преобразователем Keysight E5053A и гармоническими смесителями Keysight серии 11970.
Анализатор источников сигналов Keysight E5052B предназначен для решения широкого круга прикладных задач, включая тестирование генераторов ВЧ, СВЧ и миллиметрового диапазона, ГУН, системных генератор тактовых сигналов, модулей LAN, быстродействующих модулей формирования синхросигналов, микросхемы последовательно-параллельного преобразования (SerDes), а также высокоскоростные преобразователи данных (АЦП/ЦАП).
Диапазон частот
- Диапазон частот входного ВЧ сигнала: от 10 МГц до 110 ГГц
- Диапазон частоты отстройки: от 1 Гц до 100 МГц
- Измерение фазового шума методом взаимной корреляции при сверхнизком уровне собственных шумов
- Диапазон частот захватываемых переходных процессов: до 80 МГц (в узкополосном режиме), до 4,8 ГГц (в широкополосном режиме)
Функциональные возможности по измерению шума
- Измерение фазового шума методом взаимной корреляции при сверхнизком уровне собственных шумов
- Измерение амплитудного шума и фазового шума без изменения ВЧ подключения
- Измерение уровня шума в полосе модулирующего сигнала от 1 Гц до 100 МГц
- Мониторинг спектра с полосой обзора до 15 МГц в режиме реального времени
Возможности анализа
- Одновременные измерения частоты, фазы и мощности в зависимости от времени
- Захват внезапных изменений частоты с помощью функции запуска по видеосигналу
- Определение характеристик генераторов, управляемых напряжением (ГУН) с помощью малошумящего источника постоянного тока (измерение частоты, мощности и величины постоянного тока источника в зависимости от напряжения Vc и Vs)
- Измерение джиттера тактового сигнала с фемтосекундным разрешением
Комплектация
- Шнур питания
- Руководство по эксплуатации
Номер в Госреестре | Наименование СИ | Обозначение типа СИ | Изготовитель | Срок свидетельства или заводской номер |
---|---|---|---|---|
73702-18 | Анализаторы источников сигналов с СВЧ преобразователями частоты | E5052A/B, Е5052А/В (анализаторы) E5053A (преобразователи) | Компания "Keysight Technologies Malaysia Sdn. Bhd.", Малайзия | 25.12.2023 |
37181-08 | Анализаторы источников сигналов с СВЧ преобразователями частоты | E5052A/B, Е5052А/В (анализаторы), E5053A (преобразователи) | Фирма "Keysight Technologies Microwave Products (M) Sdn. Bhd.", Малайзия | 18.09.2018 |
RF Input Port | ||
Description | Specification | |
RF IN connector | Type-N (female), 50 ohm nominal | |
RF IN frequency range | 10 MHz to 7 GHz | |
RF IN measurement level |
-20 dBm to + 20dBm (> 30 MHz) -15 dBm to +20 dBm (< 30 MHz) |
|
Input attenuator | 0 to 35 dB (in 5 dB step) | |
Input damage level | AC > +23 dBm, DC > 5V | |
Input VSWR @50 ohm | ||
10 MHz to 30 MHz | < 1.6 | |
30 MHz to 2 GHz | < 1.2 | |
2 GHz to 3 GHz | < 1.3 | |
3 GHz to 4 GHz | < 1.3 typical | |
4 GHz to 7 GHz | < 1.5 typical | |
Phase Noise Measurement | ||
Description | Specification (E5052B) | Specification (E5052B Option 011) |
RF IN frequency range | 10 MHz to 7 GHz | |
Measurement frequency bands |
10 MHz to 41 MHz, 39 MHz to 101 MHz, 99 MHz to 1.5 GHz, 250 MHz to 7 GHz1 |
|
RF frequency tracking range | 0.4% of carrier frequency | |
Measurement parameters | SSB phase noise [dBc/Hz], Spurious noise [dBc], Integrated rms phase deviation [deg, rad] or time jitter [s], Residual FM [Hz rms] | |
Number of trace | 1 data trace and 1 memory trace with ‘data math' functions | |
Measurement trigger | continuous/single/hold source: internal/external/manual/bus | |
Offset frequency range (effective) | ||
RF carrier signal > 1 GHz (> 400 MHz for wide capture mode) |
1 Hz to 100 MHz 1 Hz to 40 MHz (wide capture mode) |
10 Hz to 100 MHz 10 Hz to 40 MHz (wide capture mode) |
RF carrier signal < 1 GHz (< 400 MHz for wide capture mode) |
1 Hz to 10% of carrier frequency | 10 Hz to 10% of carrier frequency |
Phase noise uncertainty2 at effective offset frequencies | ||
Offset 1 Hz to 10 Hz | ± 4 dB (SPD) | N/A |
Offset 10 Hz to 100 Hz | ± 4 dB (SPD) | |
Offset 100 Hz to 1 kHz | ± 3 dB | |
Offset 1 kHz to 40 MHz | ± 2 dB (± 3 dB for wide capture range mode) | |
Offset 40 MHz to 100 MHz | ± 3 dB | |
SSB phase noise sensitivity | See Table 1-3, 1-4, 1-5, Figure 1-1, 1-2, 1-3 | |
IF gain setting |
0 dB to 50 dB in 10 dB step ( not available in wide capture mode) |
0 dB to 30 dB in 10 dB step (not available in wide capture mode) |
Enhanced sensitivity |
Cross-correlation method available. Number of correlation = 1 to 10,000 |
N/A |
Built-in LO phase noise optimization |
< 150 kHz (optimized for better close-in phase noise measurement) > 150 kHz (optimized for better far-out phase noise measurement) |
|
Reference oscillator bandwidth optimization | Narrow / Wide | |
Residual spurious response level |
< –80 dBc (SPD) at > 10 kHz offset frequency with correlation > 120 sec. except for 23.5 MHz ± 1 MHz and 71 MHz ± 3 MHz of carrier frequency < –65 dBc (typical) at 1 kHz to 10 kHz offset frequency |
|
Measurement range | Capture mode: Normal or Wide | |
PN mode (Regular) |
RBW: Auto X-axis: Offset frequency in log scale |
|
Segment PN mode3 |
RBW: 96 mHz to 25 kHz (stepped), Maximum offset frequency span: 93.2 Hz to 24.4 MHz (stepped) X-axis: Offset frequency in liner scale |
N/A |
1. Wide capture mode is available for 250 MHz to 7 GHz only 2. Phase noise uncertainty: specified at 10 MHz and 1 GHz of carrier frequency with 0 dBm level. PN level > –60 dBc 3. Segment PN mode is available with the firmware revision 3.20 or later. In this datasheet, specification of phase noise sensitivity, residual spurious response level and measurement time are applicable to the regular PN mode. In the segment PN mode, number of these parameters depend on the measurement |
||
Frequency and RF Power, DC Supply Current Measurements | ||
Description | Specification (E5052B) | Specification (E5052B-011) |
RF frequency range | 10 MHz to 7 GHz | |
Measurement frequency bands | 10 MHz to 1.5 GHz (low-band), 250 MHz to 7 GHz (high-band) | |
Sweep parameters |
DC control voltage (Vc) DC supply voltage (Vs) |
N∕A (Vc and Vs: constant) |
Measurement parameters |
Full analysis capability available for Frequency [Hz, ∆Hz, %, ppm], Tuning sensitivity (∆f/∆Vc)[Hz/V], frequency pushing (∆f/∆Vs)[Hz/V], RF power level [dBm], DC supply current [A], ‘Meter mode’ is also available. |
No ‘Analysis mode’. Only ‘Meter mode’ is available. Frequency [Hz], RF power [dBm], DC supply current [A] |
Frequency resolution | 10 Hz, 1 kHz, 64 kHz | |
Frequency uncertainty | ± (frequency resolution + time-base uncertainty) | |
RF power measurement range | -20 dBm to +20 dBm (carrier 30 MHz to 7 GHz) -15 dBm to +20 dBm (carrier 10 MHz to 30 MHz) | |
RF power resolution | 0.01 dB | |
RF power uncertainty (by peak detection) | ± 0.5 dB (carrier 30 MHz to 3 GHz, > -10 dBm) ± 1 dB (other than the above) | |
DC (Vs) current measurement range | 0 to 80 mA | |
DC (Vs) current resolution | 10 μA | |
DC (Vs) current uncertainty | ± (0.2% of reading + 160 μA) | |
Swept measurement points | 2 to 1,001 | N∕A |
DC supply voltage source (Vs) output | ||
Setting range | 0 to +16 V (sweep) | 0 to +16 V (one point) |
Setting resolution | 1 mV | |
Setting uncertainty | ± (0.2% of setting + 2 mV) | |
Maximum output current | 80 mA | |
Noise level | < 10 nVrms∕√Hz @ 10 kHz typical | |
Output resistance | < 0.3 ohm typical | |
DC control voltage source (Vc) output | ||
Setting range | -15 V to +35 V (sweep) | -15 V to +35 V (one point) |
Setting resolution | 0.1 mV | |
Setting uncertainty |
± (0.1% of (setting + 15 V) + 5 mV) (@Vc = -15 V to 0V) typical ± (0.1 % of setting + 2 mV) (@Vc = 0 to +35 V) typical |
|
Maximum output current | 20 mA typical | |
Noise level |
1 nVrms∕√Hz @ 10 kHz (Vc = 0 to +20V) typical 1.5 nVrms∕√Hz @ 10 kHz (Vc: otherwise) typical |
|
Output resistance | < 50 ohm (DC) typical | |
Output settling time | < 20 ms @ 0.1% uncertainty typical | |
Measurement trigger | continuous∕single∕hold source: internal∕external∕manual∕bus | |
Transient Measurement | ||
Description | Specification | |
Target frequency range | 10 MHz to 7 GHz | |
Measurement parameters | ||
Narrowband mode | Frequency, RF power, phase | |
Wideband mode | Frequency | |
Frequency transient bandwidth | ||
Narrowband | 3.125 kHz/ 25 kHz/ 200 kHz/ 1.6 MHz 25.6 MHz (> carrier 200 MHz) 80 MHz (> carrier 800 MHz) | |
Frequency measurement | ||
Uncertainty | ± (resolution + time-base uncertainty) | |
Residual FM1 | r5 0.2/3√ 1+11/ 3 (Hzrms∕GHz),SPD ∕=reso!ution | |
RF power measurement | ||
Power level range | -20 dBm to +20 dBm | |
Resolution | 0.1 dB typical | |
Uncertainty | ± 2 dB typical | |
Phase measurement (when DUT signal is locked to a target frequency) | ||
Uncertainty | 0.1 deg + 0.1 deg/GHz typical | |
Trace noise | 0.02 deg + 0.02 deg/GHz typical | |
Stability | 10 deg/sec typical | |
Sweep measurement time | ||
Time span | 10 μs to 10 s in 1,2,5 step (in advanced mode: maximum time span = time resolution * 10,000. up to 1000 sec.) See Table 4-2 through 4-8. in details | |
Time resolution | 8 ns to 10 ms, See Table 4-2. to 4-8. in details. *Video filter time-constant: 260 ns to 16.78 ms | |
Measurement trigger | ||
Trigger mode | continuous/single/hold | |
Trigger source | internal/external/manual/bus/wide-video/narrow-video | |
External trigger polarity | positive/negative (TTL level) | |
Video trigger | positive/negative/frequency-band in/ frequency-band out | |
Pre-trigger delay | -80% of time span to + 1 s | |
External trigger delay adjustment | 0 to 1 μs | |
External trigger detection jitter | < (1 μs + time resolution) | |
1. Equation is based on simplified model of phase noise characteristic of local oscillator in the E5052B. | ||
AM Noise Measurement | ||
Description | Specification | |
RF frequency range | 60 MHz to 7 GHz | |
Effective offset frequency range | 10 Hz to 40 MHz (@ > carrier 400 MHz) 10 Hz to 10% of carrier frequency (@ < carrier 400 MHz) | |
AM noise sensitivity | See Table 5-2. | |
Measurement uncertainty1 | ± 4 dB (100 Hz to 1 kHz offset) typical ± 2 dB (1 kHz to 1 MHz offset) typical ± 3 dB (1 MHz to 40 MHz offset) typical | |
Spurious level | < -65 dBc/Hz (at > 1 kHz offset) typical | |
Measurement trigger | continuous/single/hold source: internal/external/manual/bus | |
Baseband Noise Measurement | ||
Description | Specification | |
Baseband input connector | BNC, 50 ohm nominal, AC coupled | |
Measurement frequency range | 1 Hz to 100 MHz (E5052B) 10 Hz to 100 MHz (E5052B Option 011) | |
Measurement parameters | dBV/Hz, dBm/Hz, V/JHz | |
Measurement level range | < +5 dBm | |
Baseband input damage level | > +23 dBm, > 35 V DC | |
Noise floor level | See Table 6-2. | |
Measurement uncertainty1 | ± 4 dB (< 1 kHz) SPD ± 2 dB (> 1 kHz) typical | |
Measurement trigger | continuous/single/hold source: internal/external/manual/bus | |
General Information | ||
Description | Supplemental information (nominal) | |
Connectors/terminals | ||
RF IN | Type-N (female), 50 ohm | |
Baseband IN | BNC (female), 50 ohm, AC coupled | |
DC power | BNC (female), | |
DC control | BNC (female), 50 ohm | |
RF1/RF2, IN/OUT | SMA (female), 50 ohm See the simplified block diagram. | |
USB | 2 ports (designed for USB2.0) | |
Probe DC power output | +15 V, 150 mA maximum -12.6 V, 150 mA maximum | |
Ground terminal | 1 | |
Display | 10.4 inch TFT color LCD with touch screen 1,024 x 768 resolution1 | |
Description | Supplemental information (nominal) | |
External trigger input port | ||
Connector | BNC (female) | |
Input signal level | TTL level, (0 V to +5 V) Threshold Low: 0.5 V, High: 2.1V | |
Trigger pulse width | > 2 μs | |
Trigger polarity | positive/negative edge selectable | |
Auxiliary output port | ||
Connector | BNC (female) | |
Output signal level | TTL level, L: 0 V, H:= +5 V, 50 mA max. | |
pulse width | 1 μs | |
Reference output port | ||
Connector | BNC (female), 50 ohm | |
Output frequency | same as timebase | |
Output level | 2.5 dBm ± 2 dB typical | |
Output signal waveform | Sinusoidal wave | |
Reference input ports | (Ref In 1, Ref In 2) | |
Connector | BNC (female), 50 ohm | |
Input frequency | 10 MHz ± 10 Hz | |
Input signal level | 0 dBm to 10 dBm | |
PC connection ports | ||
24 BIT I/O parallel port | 36-pin D-sub (female) connector to a handler system TTL level, 8-bit I/O 16-bit Out | |
GPIB port | 24-pin D-sub (female) connector (compatible with IEEE-488) | |
USB host ports | 4 type-A (compatible with USB 2.0) | |
USB (USBTMC2) port | 1 type-B (compatible with USBTMC-USB488 and USB 2.0) | |
LAN port | 10/100 base-T ethernet | |
Video output port | 15-pin mini D-sub (female) connector drives XGA compatible monitors | |
AC power line (a third-wire ground is required) | ||
AC frequency | 47 Hz to 63 Hz | |
AC voltage | 90 to 132 V, or 198 to 264 V (automatically selected) | |
AC power | 500 VA maximum | |
1. Valid pixels > 99.998%. Below 0.002% of fixed points of black, blue, green or red are not regarded as failures. 2. USB test and measurement class (TMC) interface that communicates over USB, complying with the IEEE-488.1 and IEEE-488.2 standards. |
||
Operating environment Temperature Humidity Altitude Vibration |
+10 degC to +40 degC RH 20% to 80% at wet bulb temp.< 29 degC (non-condensing) 0 to 2,000 m (0 to 6,561 feet) 0.21 G maximum, 5 Hz to 500 Hz |
|
Non-operating storage environment Temperature Humidity Altitude Vibration Instrument dimensions Weight (NET) |
–10 degC to +60 degC RH 20% to 90% at wet bulb temp.< 40 degC (non-condensing) 0 to 4,572 m (0 to 15,000 feet) 0.5 G maximum, 5 Hz to 500 Hz See Figure 8-1, 8-2, 8-3. 24.5 kg |
Подробные технические характеристики, информация производителя, брошюры:
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- Каталог продукции Keysight Technologies 2020.pdf
Каталоги производителя: