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Американская компания Boonton Electronics была основана в 1947 году в Morris Plains, штат Нью-Джерси и быстро завоевала репутацию лидера в области высокопроизводительных измерительных приборов и датчиков. Приборы компании отличаются высокой точностью измерений и простотой в использовании.
Boonton Electronics - производитель испытательного оборудования, предназначенного для измерения мощности радиочастотных и микроволновых систем, используемых как в военном, так и в коммерческом секторах. Компания… подробнее
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Основные возможности и технические характеристики
4500C RF Peak Power Analyzer
The Boonton Model 4500C is the instrument of choice for capturing, displaying, analyzing and characterizing micro- wave and RF power in both the time and statistical domains. It is ideal for design, verification, and troubleshooting of pulsed and noise-like signals used in commercial and military radar, electronic warfare (EW), wireless communications (e.g., LTE, LTE-A, and 5G), and consumer electronics (WLAN), as well as education and research applications.
The 4500C features 100 ps time base resolution, video band- width up to 125 MHz, flexible triggering and greater than 80 dB dynamic range without any range switching to cover the most demanding peak power measurement applications. The 4500C also features continuous statistical analysis of power at acquisition rates up to 100 MegaSamples per second (MS/s), a text display of up to 15 automatic measure- ments per channel, as well as envelope and persistence views to provide fast, in-depth signal analysis. The instrument incorporates convenient I/O, including USB ports for storing data such as instrument setups, trace waveforms and bitmap image files.
Key Specifications
Frequency range 30 MHz to 40 GHz
Measurement range -60 dBm to +20 dBm
RF channel video bandwidth 125 MHz
RF channel rise-time < 5 ns
Overall accuracy 0.2 dB
Time Resolution 100 ps
Min Pulse Width / Max PRF 6 ns / 50 MHz
Channels 2 RF and 2 trigger
Key Features
- Real-Time Power Processing™
- Ultrafast trace acquisition and refresh rate
- One button push for 15 automated power and time measurements
- Automatic peak-to-peak, delay-by-time and delay-by-events triggering
- Multi-level, multi-function calibrator
- Continuous statistical analysis (optional)
- Includes gated PDF, CDF, and CCDF
Displays up to 4 measurement, 2 memory, and 1 math channel simultaneously
Real-Time Power Processing™
Boonton Real-Time Power Processing™ dramatically reduces the total cycle time for acquiring and processing power measurement samples. By combining a dedicated acquisition engine, hardware trigger, integrated sample buffer, and a real-time optimized parallel processing architecture, Real-Time Power Processing™ performs most of the sweep processing steps simultaneously, beginning immediately after the trigger instead of waiting for the end of the acquisition cycle.
The advantages of the Real-Time Power Processing technique are shown in Figure 1a. Key processing steps take place in parallel and keep pace with the signal acquisition. With no added computational overhead to prolong the sweep cycle, the sample buffer cannot overflow. As a result, there is no need to halt acquisition for trace processing. This means gap-free signal acquisition virtually guarantees that intermittent signal phenomena such as transients, dropouts, or interference will be reliably captured and analyzed. These sorts of events are most often missed by conventional power meters due to the acquisition gaps while processing takes place, shown in Figure 1b.
The Boonton Model 4500C is the instrument of choice for capturing, displaying, analyzing and characterizing micro- wave and RF power in both the time and statistical domains. It is ideal for design, verification, and troubleshooting of pulsed and noise-like signals used in commercial and military radar, electronic warfare (EW), wireless communications (e.g., LTE, LTE-A, and 5G), and consumer electronics (WLAN), as well as education and research applications.
The 4500C features 100 ps time base resolution, video band- width up to 125 MHz, flexible triggering and greater than 80 dB dynamic range without any range switching to cover the most demanding peak power measurement applications. The 4500C also features continuous statistical analysis of power at acquisition rates up to 100 MegaSamples per second (MS/s), a text display of up to 15 automatic measure- ments per channel, as well as envelope and persistence views to provide fast, in-depth signal analysis. The instrument incorporates convenient I/O, including USB ports for storing data such as instrument setups, trace waveforms and bitmap image files.
Key Specifications
Frequency range 30 MHz to 40 GHz
Measurement range -60 dBm to +20 dBm
RF channel video bandwidth 125 MHz
RF channel rise-time < 5 ns
Overall accuracy 0.2 dB
Time Resolution 100 ps
Min Pulse Width / Max PRF 6 ns / 50 MHz
Channels 2 RF and 2 trigger
Key Features
- Real-Time Power Processing™
- Ultrafast trace acquisition and refresh rate
- One button push for 15 automated power and time measurements
- Automatic peak-to-peak, delay-by-time and delay-by-events triggering
- Multi-level, multi-function calibrator
- Continuous statistical analysis (optional)
- Includes gated PDF, CDF, and CCDF
Displays up to 4 measurement, 2 memory, and 1 math channel simultaneously
Real-Time Power Processing™
Boonton Real-Time Power Processing™ dramatically reduces the total cycle time for acquiring and processing power measurement samples. By combining a dedicated acquisition engine, hardware trigger, integrated sample buffer, and a real-time optimized parallel processing architecture, Real-Time Power Processing™ performs most of the sweep processing steps simultaneously, beginning immediately after the trigger instead of waiting for the end of the acquisition cycle.
The advantages of the Real-Time Power Processing technique are shown in Figure 1a. Key processing steps take place in parallel and keep pace with the signal acquisition. With no added computational overhead to prolong the sweep cycle, the sample buffer cannot overflow. As a result, there is no need to halt acquisition for trace processing. This means gap-free signal acquisition virtually guarantees that intermittent signal phenomena such as transients, dropouts, or interference will be reliably captured and analyzed. These sorts of events are most often missed by conventional power meters due to the acquisition gaps while processing takes place, shown in Figure 1b.
Unique Trigger System
The 4500C features a unique trigger system that allows users to qualify the trigger on a specific event or a specific delay time. This allows a user-selected pulse to be captured, even when its timing is variable. The B trigger qualifier with resolution <100 ps eliminates problematic synchronization issues associated with time jitter within pulse bursts
– often found in UWB and radar applications. This qualifier may be setup to 999,999 events or up to 1 second.
Superior Time Management
The 4500C features 100 ps time base resolution and with an acquisition rate up to 100 MS/s, can provide 50 points per division with a time base range as low as 5 ns / division. This enables users to see meaningful waveform information (Figure 3a) missed by alternative power analyzers (Figure 3b).
In addition, Boonton’s superior time management enables several other advantages. Pulse widths as narrow as 6 ns can be captured and characterized. The 4500C can also allow users to analyze long waveforms, whether a long pulse train or shorter waveforms over more repetitions. With a viewing range up to 10 hours, users can monitor for temporal behavior such as amplifier droop as it heats up.
Powerful Statistical Analysis
The 4500C features optional probability density functions (PDF) and cumulative distribution functions (CDF, CCDF) to accurately characterize noise-like RF, such as OFDM and WLAN signals. These statistical functions build and analyze a very large population of power samples continuously or triggered at a 100 MS/s acquisition rate on all channels simultaneously. These functions are fast, accurate and allow the measurement of very infrequent power peaks for a user-defined popu- lation size or acquisition interval. Although the programmable acquisition time can be very long or continuous, even short runs can resolve very low probabilities, due to the extremely high sample
throughput.
The 4500C features a unique trigger system that allows users to qualify the trigger on a specific event or a specific delay time. This allows a user-selected pulse to be captured, even when its timing is variable. The B trigger qualifier with resolution <100 ps eliminates problematic synchronization issues associated with time jitter within pulse bursts
– often found in UWB and radar applications. This qualifier may be setup to 999,999 events or up to 1 second.
Superior Time Management
The 4500C features 100 ps time base resolution and with an acquisition rate up to 100 MS/s, can provide 50 points per division with a time base range as low as 5 ns / division. This enables users to see meaningful waveform information (Figure 3a) missed by alternative power analyzers (Figure 3b).
In addition, Boonton’s superior time management enables several other advantages. Pulse widths as narrow as 6 ns can be captured and characterized. The 4500C can also allow users to analyze long waveforms, whether a long pulse train or shorter waveforms over more repetitions. With a viewing range up to 10 hours, users can monitor for temporal behavior such as amplifier droop as it heats up.
Powerful Statistical Analysis
The 4500C features optional probability density functions (PDF) and cumulative distribution functions (CDF, CCDF) to accurately characterize noise-like RF, such as OFDM and WLAN signals. These statistical functions build and analyze a very large population of power samples continuously or triggered at a 100 MS/s acquisition rate on all channels simultaneously. These functions are fast, accurate and allow the measurement of very infrequent power peaks for a user-defined popu- lation size or acquisition interval. Although the programmable acquisition time can be very long or continuous, even short runs can resolve very low probabilities, due to the extremely high sample
throughput.
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Основные возможности и технические характеристики
4500C RF Peak Power Analyzer
The Boonton Model 4500C is the instrument of choice for capturing, displaying, analyzing and characterizing micro- wave and RF power in both the time and statistical domains. It is ideal for design, verification, and troubleshooting of pulsed and noise-like signals used in commercial and military radar, electronic warfare (EW), wireless communications (e.g., LTE, LTE-A, and 5G), and consumer electronics (WLAN), as well as education and research applications.
The 4500C features 100 ps time base resolution, video band- width up to 125 MHz, flexible triggering and greater than 80 dB dynamic range without any range switching to cover the most demanding peak power measurement applications. The 4500C also features continuous statistical analysis of power at acquisition rates up to 100 MegaSamples per second (MS/s), a text display of up to 15 automatic measure- ments per channel, as well as envelope and persistence views to provide fast, in-depth signal analysis. The instrument incorporates convenient I/O, including USB ports for storing data such as instrument setups, trace waveforms and bitmap image files.
Key Specifications
Frequency range 30 MHz to 40 GHz
Measurement range -60 dBm to +20 dBm
RF channel video bandwidth 125 MHz
RF channel rise-time < 5 ns
Overall accuracy 0.2 dB
Time Resolution 100 ps
Min Pulse Width / Max PRF 6 ns / 50 MHz
Channels 2 RF and 2 trigger
Key Features
- Real-Time Power Processing™
- Ultrafast trace acquisition and refresh rate
- One button push for 15 automated power and time measurements
- Automatic peak-to-peak, delay-by-time and delay-by-events triggering
- Multi-level, multi-function calibrator
- Continuous statistical analysis (optional)
- Includes gated PDF, CDF, and CCDF
Displays up to 4 measurement, 2 memory, and 1 math channel simultaneously
Real-Time Power Processing™
Boonton Real-Time Power Processing™ dramatically reduces the total cycle time for acquiring and processing power measurement samples. By combining a dedicated acquisition engine, hardware trigger, integrated sample buffer, and a real-time optimized parallel processing architecture, Real-Time Power Processing™ performs most of the sweep processing steps simultaneously, beginning immediately after the trigger instead of waiting for the end of the acquisition cycle.
The advantages of the Real-Time Power Processing technique are shown in Figure 1a. Key processing steps take place in parallel and keep pace with the signal acquisition. With no added computational overhead to prolong the sweep cycle, the sample buffer cannot overflow. As a result, there is no need to halt acquisition for trace processing. This means gap-free signal acquisition virtually guarantees that intermittent signal phenomena such as transients, dropouts, or interference will be reliably captured and analyzed. These sorts of events are most often missed by conventional power meters due to the acquisition gaps while processing takes place, shown in Figure 1b.
The Boonton Model 4500C is the instrument of choice for capturing, displaying, analyzing and characterizing micro- wave and RF power in both the time and statistical domains. It is ideal for design, verification, and troubleshooting of pulsed and noise-like signals used in commercial and military radar, electronic warfare (EW), wireless communications (e.g., LTE, LTE-A, and 5G), and consumer electronics (WLAN), as well as education and research applications.
The 4500C features 100 ps time base resolution, video band- width up to 125 MHz, flexible triggering and greater than 80 dB dynamic range without any range switching to cover the most demanding peak power measurement applications. The 4500C also features continuous statistical analysis of power at acquisition rates up to 100 MegaSamples per second (MS/s), a text display of up to 15 automatic measure- ments per channel, as well as envelope and persistence views to provide fast, in-depth signal analysis. The instrument incorporates convenient I/O, including USB ports for storing data such as instrument setups, trace waveforms and bitmap image files.
Key Specifications
Frequency range 30 MHz to 40 GHz
Measurement range -60 dBm to +20 dBm
RF channel video bandwidth 125 MHz
RF channel rise-time < 5 ns
Overall accuracy 0.2 dB
Time Resolution 100 ps
Min Pulse Width / Max PRF 6 ns / 50 MHz
Channels 2 RF and 2 trigger
Key Features
- Real-Time Power Processing™
- Ultrafast trace acquisition and refresh rate
- One button push for 15 automated power and time measurements
- Automatic peak-to-peak, delay-by-time and delay-by-events triggering
- Multi-level, multi-function calibrator
- Continuous statistical analysis (optional)
- Includes gated PDF, CDF, and CCDF
Displays up to 4 measurement, 2 memory, and 1 math channel simultaneously
Real-Time Power Processing™
Boonton Real-Time Power Processing™ dramatically reduces the total cycle time for acquiring and processing power measurement samples. By combining a dedicated acquisition engine, hardware trigger, integrated sample buffer, and a real-time optimized parallel processing architecture, Real-Time Power Processing™ performs most of the sweep processing steps simultaneously, beginning immediately after the trigger instead of waiting for the end of the acquisition cycle.
The advantages of the Real-Time Power Processing technique are shown in Figure 1a. Key processing steps take place in parallel and keep pace with the signal acquisition. With no added computational overhead to prolong the sweep cycle, the sample buffer cannot overflow. As a result, there is no need to halt acquisition for trace processing. This means gap-free signal acquisition virtually guarantees that intermittent signal phenomena such as transients, dropouts, or interference will be reliably captured and analyzed. These sorts of events are most often missed by conventional power meters due to the acquisition gaps while processing takes place, shown in Figure 1b.
Unique Trigger System
The 4500C features a unique trigger system that allows users to qualify the trigger on a specific event or a specific delay time. This allows a user-selected pulse to be captured, even when its timing is variable. The B trigger qualifier with resolution <100 ps eliminates problematic synchronization issues associated with time jitter within pulse bursts
– often found in UWB and radar applications. This qualifier may be setup to 999,999 events or up to 1 second.
Superior Time Management
The 4500C features 100 ps time base resolution and with an acquisition rate up to 100 MS/s, can provide 50 points per division with a time base range as low as 5 ns / division. This enables users to see meaningful waveform information (Figure 3a) missed by alternative power analyzers (Figure 3b).
In addition, Boonton’s superior time management enables several other advantages. Pulse widths as narrow as 6 ns can be captured and characterized. The 4500C can also allow users to analyze long waveforms, whether a long pulse train or shorter waveforms over more repetitions. With a viewing range up to 10 hours, users can monitor for temporal behavior such as amplifier droop as it heats up.
Powerful Statistical Analysis
The 4500C features optional probability density functions (PDF) and cumulative distribution functions (CDF, CCDF) to accurately characterize noise-like RF, such as OFDM and WLAN signals. These statistical functions build and analyze a very large population of power samples continuously or triggered at a 100 MS/s acquisition rate on all channels simultaneously. These functions are fast, accurate and allow the measurement of very infrequent power peaks for a user-defined popu- lation size or acquisition interval. Although the programmable acquisition time can be very long or continuous, even short runs can resolve very low probabilities, due to the extremely high sample
throughput.
The 4500C features a unique trigger system that allows users to qualify the trigger on a specific event or a specific delay time. This allows a user-selected pulse to be captured, even when its timing is variable. The B trigger qualifier with resolution <100 ps eliminates problematic synchronization issues associated with time jitter within pulse bursts
– often found in UWB and radar applications. This qualifier may be setup to 999,999 events or up to 1 second.
Superior Time Management
The 4500C features 100 ps time base resolution and with an acquisition rate up to 100 MS/s, can provide 50 points per division with a time base range as low as 5 ns / division. This enables users to see meaningful waveform information (Figure 3a) missed by alternative power analyzers (Figure 3b).
In addition, Boonton’s superior time management enables several other advantages. Pulse widths as narrow as 6 ns can be captured and characterized. The 4500C can also allow users to analyze long waveforms, whether a long pulse train or shorter waveforms over more repetitions. With a viewing range up to 10 hours, users can monitor for temporal behavior such as amplifier droop as it heats up.
Powerful Statistical Analysis
The 4500C features optional probability density functions (PDF) and cumulative distribution functions (CDF, CCDF) to accurately characterize noise-like RF, such as OFDM and WLAN signals. These statistical functions build and analyze a very large population of power samples continuously or triggered at a 100 MS/s acquisition rate on all channels simultaneously. These functions are fast, accurate and allow the measurement of very infrequent power peaks for a user-defined popu- lation size or acquisition interval. Although the programmable acquisition time can be very long or continuous, even short runs can resolve very low probabilities, due to the extremely high sample
throughput.
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Сведения о реестре СИ
Номер в госреестре
49871-12
49871-12
49871-12
Наименование СИ
Измерители мощности СВЧ с блоками измерительными и преобразователями измерительными
Измерители мощности СВЧ с блоками измерительными и преобразователями измерительными
Измерители мощности СВЧ с блоками измерительными и преобразователями измерительными
Обозначение типа СИ
4531, 4532, 4541, 4542, 4241, 4242, 4500B и 51200, 51015 (5E), 51033 (6E), 51077A, 57006, 57540, 59340, 51100 (9E), 57518, 59318, 51071A, 51072A, 51075A, 51079A, 51013 (4E), 51011 (4B), 51011 (EMC)
4531, 4532, 4541, 4542, 4241, 4242, 4500B и 51200, 51015 (5E), 51033 (6E), 51077A, 57006, 57540, 59340, 51100 (9E), 57518, 59318, 51071A, 51072A, 51075A, 51079A, 51013 (4E), 51011 (4B), 51011 (EMC)
4531, 4532, 4541, 4542, 4241, 4242, 4500B и 51200, 51015 (5E), 51033 (6E), 51077A, 57006, 57540, 59340, 51100 (9E), 57518, 59318, 51071A, 51072A, 51075A, 51079A, 51013 (4E), 51011 (4B), 51011 (EMC)
Изготовитель
Фирма "Boonton Electronics", США
Фирма "Boonton Electronics", США
Фирма "Boonton Electronics", США
Срок свидетельства или заводской номер
20.04.2027
20.04.2022
11.05.2017
Свернуть
Развернуть
Сведения о реестре СИ
Номер в госреестре
49871-12
49871-12
49871-12
Наименование СИ
Измерители мощности СВЧ с блоками измерительными и преобразователями измерительными
Измерители мощности СВЧ с блоками измерительными и преобразователями измерительными
Измерители мощности СВЧ с блоками измерительными и преобразователями измерительными
Обозначение типа СИ
4531, 4532, 4541, 4542, 4241, 4242, 4500B и 51200, 51015 (5E), 51033 (6E), 51077A, 57006, 57540, 59340, 51100 (9E), 57518, 59318, 51071A, 51072A, 51075A, 51079A, 51013 (4E), 51011 (4B), 51011 (EMC)
4531, 4532, 4541, 4542, 4241, 4242, 4500B и 51200, 51015 (5E), 51033 (6E), 51077A, 57006, 57540, 59340, 51100 (9E), 57518, 59318, 51071A, 51072A, 51075A, 51079A, 51013 (4E), 51011 (4B), 51011 (EMC)
4531, 4532, 4541, 4542, 4241, 4242, 4500B и 51200, 51015 (5E), 51033 (6E), 51077A, 57006, 57540, 59340, 51100 (9E), 57518, 59318, 51071A, 51072A, 51075A, 51079A, 51013 (4E), 51011 (4B), 51011 (EMC)
Изготовитель
Фирма "Boonton Electronics", США
Фирма "Boonton Electronics", США
Фирма "Boonton Electronics", США
Срок свидетельства или заводской номер
20.04.2027
20.04.2022
11.05.2017
Характеристики
Загрузить технические характеристики
Sensor Inputs | |
RF Frequency Range | 30 MHz to 40 GHz |
Pulse Measurement Range | -50 to +20 dBm |
Modulated Measurement Range | -60 to +20 dBm |
Relative Offset Range | ±100.00 dB |
Logarithmic Vertical Scale | |
0.1 to 50 dBm/div | in 1-2-5 sequence |
0.1 to 50 dBV/div | in 1-2-5 sequence |
0.1 to 50 dBmV/div | in 1-2-5 sequence |
0.1 to 50 dBuV/div | in 1-2-5 sequence |
Linear Vertical Scale | |
1 nW/div to 50 MW/div | in 1-2-5 sequence |
1 mV/div to 50 kV/div | in 1-2-5 sequence |
Video Bandwidth | 125 MHz |
Rise-Time | <5 ns |
Single-Shot Bandwidth | 35 MHz |
Pulse Repetition Rate | 50 MHz max |
Minimum Pulse Width | 6 ns |
Time Base | |
Time Base Range | 5 ns/div to 1 hr/div |
Time Base Accuracy | +/- 1.4 ppm peak |
Time Base Resolution | 100 ps |
Time Base Display | Sweeping or roll mode |
Statistical X-Axis (optional) | |
Scale | Linear or logarithmic, 1 to 7 cycles |
Linear Ranges | 0.1%/div to 10%/div |
Linear Offset | 0 to 99.9%, 0.1% resolution |
Log Range | 1e-9% to 100% |
Calibration Source | |
Operating Modes | CW, internal or external pulse |
Frequency | 1.024 GHz ± 0.01% |
Level Range | -50 to +20 dBm |
Resolution | 0.1 dB |
Output VSWR | 1.10 maximum |
Absolute Accuracy | ±0.04 dB (±0.9%) at 0 dBm |
Accuracy vs Level | add ±0.02 dB per 5 dB increment from 0 dBm |
Preset Internal Pulse Period | 0.1 or 1 or 10 ms |
Preset Internal Pulse Duty Cycle | 10% to 90% in 10% increments |
Variable Pulse On Time | 7 psec to 65.535 ms in 1 psec steps |
Variable Pulse Period | 28 psec to 131.070 ms in 2 psec steps Off-time limits - within 7 psec to 65.535 ms |
Pulse Polarity | + or - |
RF Connector | Precision Type N |
External Pulse Input | Rear panel BNC, TTL level compatible |
Auto-Calibration The calibrator is used to automatically generate linearity calibration data for peak power sensors. | |
Measurement System | |
Sensor Inputs | Two peak power sensor measurement channels and two trigger/ oscilloscope channels. |
Measurement Technique Random interleaved and real-time sampling system that provides pre- and post- trigger data, as well as statistical histogram accumulation. | |
Maximum Sampling Rate 100 MS/s on up to four channels simultaneously. (Equivalent effective sampling rate of 10 GS/s with Random Interleaved Sampling) | |
Waveform Averaging | 1 to 16,384 samples per data point (time domain measurement) |
Number of Histogram Bins | 16,384 |
Size of Sample Bins | 32-bits (4,096 mega-samples) |
Bin Power Resolution | <0.02 dB |
Statistical Acquisition (optional) | |
Modes | Continuous or gated by pulse mode time markers |
Sampling Rate | 100 MS/s on all channels simultaneously |
Limit Count | Adjustable, 2 to 4096 Megasamples |
Limit Time | 3600 seconds (approx. 41 s at full sample rate) |
Terminal Action | Stop, flush and restart or decimate |
System Displays | |
Display Type Power versus time (pulse mode), Power versus time (modulated mode), External trigger versus time (pulse mode), Auto-measure text (all modes), Help text (all modes), Reports (sensors, configuration, calibrator, files, stored waveforms, GPIB commands, GPIB buffers) |
|
Statistical Display Type (optional) Cumulative Distribution Function (CDF), Complementary Cumulative Distribution Function (CCDF), Split screen, gated CCDF and power versus time (pulse mode,CCDF), Distribution function (histogram), External trigger statistical (statistical mode), Auto-measure text (statistical mode) |
|
Trigger | |
Trigger Source Channel 1 (internal), Channel 2 (internal) External trigger 1, External trigger 2 | |
Trigger Slope | + or - |
Trigger Delay Range Time base setting 5 ns to 500 ns/div 1 ps to 10 ms/div 20 ms to 3600 s/div | pre-trig(-), post-trig(+) Delay range -4 ms to +100 ms ±4000 divisions -40 to +100 s |
Trigger Delay Resolution | 0.02 divisions |
Trigger Hold-off Range | 0.0 to 1.0 s |
Trigger Hold-off Resolution | 10 ns |
Trigger Mode | Normal, auto, auto peak-to-peak, free run |
B Trigger Mode | A only, B delay-by-time, B delayby-events specs |
B Trigger Source | Chan 1, Chan 2, Ext trig 1, Ext trig 2 |
B Trigger Slope | + or - |
B Trigger Events Counter Range | 1 to 999,999 events |
B Trigger Time Delay Range | 0.0 to 1.0 s |
B Trigger Time Delay Resolution | 10 ns |
Internal Trigger Level Range | -40 to +20 dBm (sensor-dependent) |
External Trigger Level Range | ±5 volts, ±50 volts |
External Trigger Input | 1M or 50 ohm, DC Coupled |
Pulse and Modulated Mode Marker Measurements | |
Markers (Vertical Cursors) | Settable in time relative to the trigger position |
Marker Independently | Power at specified time |
Pair of Markers: | |
Power at two specified times with ratio or average power between them. The minimum and maximum power between the markers and | |
the ratio or average power between them. The average power, peak power (hold) and peak-to average power ratio between the markers. | |
Ref Lines (Horizontal Cursors) | Settable in power |
Automatic Tracking | |
Intersection of either marker and the waveform. Either marker and pulse distal, mesial or proximal levels. | |
Statistical Mode Marker Measurements (optional) | |
Markers (Vertical Cursors) | Settable in percent (distribution functions) |
Each Marker Independently | Power at specified percent |
Pair of Markers Power ratio at two specified percents. Statistical analysis between markers (using triggered statistical mode) | |
Ref Lines (Horizontal Cursors) | Settable in power |
Automatic Tracking Set to track the intersection of either marker and the distribution function measure percent probability at a defined power level. | |
Pulse Mode Automatic Measurements | |
Pulse width | Pulse rise-time |
Pulse fall-time | Pulse period |
Pulse repetition frequency | Pulse duty cycle |
Pulse off-time | Peak power |
Pulse power | Percent overshoot |
Average power | Top level power |
Bottom level power | Edge delay |
Pulse edge skew between channels | |
Statistical Mode Automatic Measurements (optional) | |
Peak power | Average power |
Minimum power | Peak to average ratio |
Dynamic range | Percent at reference lines |
Power at markers (absolute or normalized) | |
Total time (indicated) | |
Total number of samples (indicated) | |
Waveform Storage | |
Storage Locations Waveforms & distribution functions can be saved to and recalled from internal storage locations and removable file-based memory devices. | |
External Interfaces | |
GPIB (optional) | Programmable interface; complies with SCPI ver. 1990 |
USB | General purpose I/O interface |
LAN | Ethernet port |
Other Characteristics | |
Display | 8.4” Diagonal TFT color LCD, 800 x 600 pixels, with LED backlight. |
Storage | Internal SSD >60GB Optional removeable drive |
Acquisition Engine Real-Time Power Processing™ | |
Environmental | |
Operating Temperature | 0 °C to 50 °C |
Storage Temperature | -20 °C to 70 °C |
Operating Humidity | 15 to 95% RH, non-condensing |
Storage Humidity | 0 to 90% RH, non-condensing |
Operating Altitude | 10,000 ft max (3048 m) |
Storage Altitude | 50,000 ft max (15,240 m) |
Regulatory | |
Construction Manufactured to the intent of MIL-PRF-28800F, Class 3 | |
Classifications | Class A: Electrical equipment for control, measurement, and laboratory use Group 1: Industrial, scientific, or medical equipment that does not intentionally generate radio frequency energy |
Regulatory (continued) | |
CE Mark | |
Low Voltage Directive 2014/35/EU | EN and EIC 61010-1:2010 |
EMC Directive 2014/30/EU | EN: 61326-1:2013 |
RoHS Directive 2011/65/EU | |
Power Requirements | 90 to 260 VAC, 47 to 63 Hz, 90W |
Dimensions (HxWxD) | 19” rack-mountable; 7.0” x 17.5” x 13.5” (17.8 cm x 44.5 cm x 34.3 cm) |
Weight | 18 lbs (8.2 kg) |
Warranty | 3 years |
Модели и опции
Товар |
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Модели и Опции |
Описание |
Цена | Заказать |
0
Модели |
4500C
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Анализатор пиковой мощности реального времени, 1-2 канала, 30 МГц - 40 ГГц, 125 МГц видео полоса
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По запросу |
1
Опции |
4500C-TCASE
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Транспортный кейс для 4500C
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По запросу | ||
4500C-RMEO
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Набор для монтажа в стойку
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По запросу | ||
4500C-RMEH
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Набор для монтажа в стойку с ручками
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По запросу | ||
4500C-003
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Два канала, разъемы на тыльной стороне
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По запросу | ||
4500C-006
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Двуканальный триггер (разъемы только на тыльной стороне)
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По запросу | ||
4500C-007
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Калибратор, разъем на тыльной стороне
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По запросу | ||
4500C-010
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Статистический анализ мощности (вкл. Стробированные функции CCDF и PDF)
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По запросу | ||
4500C-015
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Съемный SSD (заменяет встроенный SSD)
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По запросу | ||
4500C-016
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GPIB интерфейс
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По запросу | ||
4500C-RSSD
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Дополнительный съемный SSD с ПО (требуется опция 4500C-015)
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По запросу | ||
4500C-ISSD
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Запасной встроенный SSD с ПО
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По запросу |
12
Преобразователи пиковой мощности |
57006
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Пиковый преобразователь мощности: 50 МГц - 6 ГГц, < 7 нс нарастание
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По запросу | ||
57518
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Пиковый преобразователь мощности: 50 МГц - 18 ГГц, < 100 нс нарастание
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По запросу | ||
57540
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Пиковый преобразователь мощности: 50 МГц - 40 ГГц, < 100 нс нарастание
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По запросу | ||
59318
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Пиковый преобразователь мощности: 50 МГц - 18 ГГц, < 10 нс нарастание
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По запросу | ||
59340
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Пиковый преобразователь мощности: 50 МГц - 40 ГГц, < 10 нс нарастание
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По запросу |
Библиотека
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