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Американская компания Tektronix была создана в 1946 году. Основатели компании Howard C. Vollum и Jack Murdock считаются изобретателями первого в мире осциллографа, умевшего осуществлять синхронизацию картинки. Компания Tektronix первая в мире сделала из осциллографа измерительный прибор, т.е. с калиброванными сетками на экране.
В 1963 году компания первой разработала технологию ЭЛТ «Direct View BistableStorage Tube (DVBST)», позволяющую запоминать осциллограмму… подробнее
Осциллограф смешанных сигналов MSO Серии 6
Прибор с возможностью расширения полосы пропускания от 1 ГГц до 8 ГГц может обеспечить диагностику и проверку имеющихся и будущих высокоскоростных устройств. Измерения выполняются с высокой точностью, низким уровнем шумов и частотой дискретизации 25 Гвыб/с на канал, при этом частота дискретизации не ухудшается при переключении каналов.
Высокая достоверность результатов
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Добавление функций или повышение производительности при необходимости |
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Дальнейшее совершенствование осциллографов за счёт новых функций и опций |
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НОВЫЕ опции
Бесплатное обновление функций прибора при установке опций расширенного анализа
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Бесплатное обновление на всех приборах Вы уже пользуетесь осциллографом Серии 6? Обновите его.
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Комплектация |
Осциллограф смешанных сигналов MSO Серии 6
Прибор с возможностью расширения полосы пропускания от 1 ГГц до 8 ГГц может обеспечить диагностику и проверку имеющихся и будущих высокоскоростных устройств. Измерения выполняются с высокой точностью, низким уровнем шумов и частотой дискретизации 25 Гвыб/с на канал, при этом частота дискретизации не ухудшается при переключении каналов.
Высокая достоверность результатов
Загрузить техническое описание |
|
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Добавление функций или повышение производительности при необходимости |
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Дальнейшее совершенствование осциллографов за счёт новых функций и опций |
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НОВЫЕ опции
Бесплатное обновление функций прибора при установке опций расширенного анализа
|
Бесплатное обновление на всех приборах Вы уже пользуетесь осциллографом Серии 6? Обновите его.
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Комплектация |
Номер в Госреестре |
Наименование СИ |
Обозначение типа СИ |
Изготовитель |
Срок свидетельства или заводской номер |
---|---|---|---|---|
74563-19 |
Осциллографы цифровые |
MSO64 |
Компания "Tektronix (China) Co., Ltd.", Китай |
01.04.2024 |
Номер в Госреестре |
Наименование СИ |
Обозначение типа СИ |
Изготовитель |
Срок свидетельства или заводской номер |
---|---|---|---|---|
74563-19 |
Осциллографы цифровые |
MSO64 |
Компания "Tektronix (China) Co., Ltd.", Китай |
01.04.2024 |
Specifications
All specifications are guaranteed unless noted otherwise. All specifications apply to all models unless noted otherwise.
Model overview
MSO64 | |
---|---|
FlexChannel inputs | 4 |
Maximum analog channels | 4 |
Maximum digital channels (with optional logic probes) | 32 |
Bandwidth (calculated rise time) | 1 GHz (400 ps), 2.5 GHz (160 ps), 4 GHz (100 ps), 6 GHz (66.67 ps), 8 GHz (50 ps) |
DC Gain Accuracy | 50 Ω: ±2.0% 1 at >2 mV/div (±2.0% at 2 mV/div typical, ±4% at 1 mV/div typical)
50 Ω: ±1.0% 2 of full scale at >2 mV/div, (±1.0% of full scale at 2 mV/div typical, ±2% at 1 mV/div typical) 1 MΩ: ±2.0%1 at >2 mV/div (±2% at 2 mV/div, ±2.5% at 1 mV/div typical and 500 μV/div typical) 1 MΩ: ±1.0%2 of full scale at >2 mV/div, (±1.0% of full scale at 2 mV/div typical, ±1.25% at 1 mV/div and 500 μV/div, typical) |
ADC Resolution | 12 bits |
Vertical Resolution | 8 bits @ 25 GS/s; 8 GHz on all channels
12 bits @ 12.5 GS/s; 4 GHz on all channels 13 bits @ 6.25 GS/s (High Res); 2 GHz on all channels 14 bits @ 3.125 GS/s (High Res); 1 GHz on all channels 15 bits @ 1.25 GS/s (High Res); 500 MHz on all channels 16 bits @ ≤625 MS/s (High Res); 200 MHz on all channels |
Sample Rate | 25 GS/s on all analog / digital channels (40 ps resolution) |
Record Length | 62.5 Mpoints on all analog / digital channels, 125 Mpoints on all analog / digital channels optional, and 250 Mpoints on all analog / digital channels optional |
Waveform Capture Rate | >500,000 wfms/s (Peak Detect, Envelope acquisition mode),
>30,000 wfms/s (all other acquisition modes) |
Arbitrary/Function Generator (opt.) | 13 predefined waveform types with up to 50 MHz output |
DVM | 4-digit DVM (free with product registration) |
Trigger Frequency Counter | 8-digit frequency counter (free with product registration) |
1Immediately after SPC, add 2% for every 5 °C change in ambient.
2Immediately after SPC, add 1% for every 5 °C change in ambient.
Vertical system - analog channels
- Input coupling
- DC, AC
- Input impedance 1 MΩ DC coupled
-
1 MΩ ±1%
- Input capacitance 1 MΩ DC coupled, typical
-
14.5 pF ±1.5 pF
- Input impedance 50 Ω, DC coupled
-
50 Ω ±3%
- Input sensitivity range
-
- 1 MΩ
- 500 µV/div to 10 V/div in a 1-2-5 sequence
- Note: 500 μV/div is a 2X digital zoom of 1 mV/div.
- 50 Ω
- 1 mV/div to 1 V/div in a 1-2-5 sequence
- Note: 1 mV/div is a 2X digital zoom of 2 mV/div.
- Maximum input voltage
-
50 Ω: 2.5 VRMSat <100 mV/div, with peaks ≤ ±20 V (DF ≤ 6.25%)
50 Ω: 5 VRMSat ≥100 mV/div, with peaks ≤ ±20 V (DF ≤ 6.25%)
1 MΩ: 300 VRMS
For 1 MΩ, derate at 20 dB/decade from 4.5 MHz to 45 MHz;
Derate at 14 dB/decade from 45 MHz to 450 MHz; > 450 MHz, 5.5 VRMS
- Effective bits (ENOB), typical
-
- 2 mV/div, High Res mode, 50 Ω, 10 MHz input with 90% full screen
-
Bandwidth ENOB 4 GHz 5.9 3 GHz 6.1 2.5 GHz 6.2 2 GHz 6.35 1 GHz 6.8 500 MHz 7.2 350 MHz 7.4 250 MHz 7.5 200 MHz 7.75 20 MHz 8.8 - 50 mV/div, High Res mode, 50 Ω, 10 MHz input with 90% full screen
-
Bandwidth ENOB 4 GHz 7.25 3 GHz 7.5 2.5 GHz 7.6 2 GHz 7.8 1 GHz 8.2 500 MHz 8.5 350 MHz 8.8 250 MHz 8.9 200 MHz 9 20 MHz 9.8 - 2 mV/div, Sample mode, 50 Ω, 10 MHz input with 90% full screen
-
Bandwidth ENOB 8 GHz 5.1 7 GHz 5.3 6 GHz 5.5 5 GHz 5.65 4 GHz 5.9 3 GHz 6.05 2.5 GHz 6.2 2 GHz 6.35 1 GHz 6.8 500 MHz 7.2 350 MHz 7.3 250 MHz 7.5 200 MHz 7.3 20 MHz 7.6 - 50 mV/div, Sample mode, 50 Ω, 10 MHz input with 90% full screen
-
Bandwidth ENOB 8 GHz 6.5 7 GHz 6.6 6 GHz 6.8 5 GHz 7 4 GHz 7.2 3 GHz 7.4 2.5 GHz 7.6 2 GHz 7.7 1 GHz 8.2 500 MHz 8.4 350 MHz 8.7 250 MHz 8.8 200 MHz 7.8 20 MHz 7.9
- DC balance
-
0.1 div with DC-50 Ω oscilloscope input impedance (50 Ω BNC terminated)
0.2 div at 1 mV/div with DC-50 Ω oscilloscope input impedance (50 Ω BNC terminated)
0.2 div with DC-1 MΩ oscilloscope input impedance (50 Ω BNC terminated)
- Position range
- ±5 divisions
- Offset ranges, maximum
-
-
Input signal cannot exceed maximum input voltage for the 50 Ω input path.
Volts/div Setting Maximum offset range, 50 Ω Input 1 mV/div - 99 mV/div ±1 V 100 mV/div - 1 V/div ±10 V Volts/div Setting Maximum offset range, 1 MΩ Input 500 µV/div - 63 mV/div ±1 V 64 mV/div - 999 mV/div ±10 V 1 V/div - 10 V/div ±100 V
- Offset accuracy
-
±(0.005 X | offset - position | + DC balance); Offset, position, and DC Balance in units of Volts
- Bandwidth selections
-
- 8 GHz model, 50 Ohm
- 20 MHz, 200 MHz, 250 MHz, 350 MHz, 500 MHz, 1 GHz, 2 GHz, 2.5 GHz, 3 GHz, 4 GHz, 5 GHz, 6 GHz, 7 GHz, and 8 GHz
- 6 GHz model, 50 Ohm
- 20 MHz, 200 MHz, 250 MHz, 350 MHz, 500 MHz, 1 GHz, 2 GHz, 2.5 GHz, 3 GHz, 4 GHz, 5 GHz, and 6 GHz
- 4 GHz model, 50 Ohm
- 20 MHz, 200 MHz, 250 MHz, 350 MHz, 500 MHz, 1 GHz, 2 GHz, 2.5 GHz, 3 GHz, and 4 GHz
- 2.5 GHz model, 50 Ohm
- 20 MHz, 200 MHz, 250 MHz, 350 MHz, 500 MHz, 1 GHz, 2 GHz, and 2.5 GHz
- 1 GHz model, 50 Ohm
- 20 MHz, 200 MHz, 250 MHz, 350 MHz, 500 MHz, and 1 GHz
- 1M Ohm
- 20 MHz, 200 MHz, 250 MHz, 350 MHz, and Full (500 MHz)
- Bandwidth filtering optimized for
- Flatness or Step response
- Random noise, RMS, typical
-
- 50 Ω, typical
-
25 GS/s, Sample Mode, RMS V/div 1 mV/div 2 mV/div 5 mV/div 10 mV/div 20 mV/div 50 mV/div 100 mV/div 1 V/div 8 GHz 158 μV 158 μV 208 μV 342 μV 630 μV 1.49 mV 3.46 mV 29.7 mV 7 GHz 141 μV 143 μV 192 μV 311 μV 562 μV 1.31 mV 3.11 mV 26.2 mV 6 GHz 127 μV 127 μV 165 μV 274 μV 489 μV 1.18 mV 2.71 mV 23.6 mV 5 GHz 112 μV 113 μV 149 μV 239 μV 446 μV 1.05 mV 2.42 mV 21.1 mV 12.5 GS/s, HiRes Mode, RMS V/div 1 mV/div 2 mV/div 5 mV/div 10 mV/div 20 mV/div 50 mV/div 100 mV/div 1 V/div 4 GHz 97.4 μV 98.7 μV 124 μV 192 μV 344 μV 817 μV 1.92 mV 16.3 mV 3 GHz 82.9 μV 84 μV 105 μV 160 μV 282 μV 680 μV 1.62 mV 13.6 mV 2.5 GHz 76.5 μV 77.5 μV 93.8 μV 144 μV 257 μV 606 μV 1.44 mV 12.1 mV 2 GHz 68.1 μV 69.1 μV 83.6 μV 131 μV 226 μV 528 μV 1.28 mV 10.6 mV 1 GHz 54.8 μV 51.2 μV 63.4 μV 90.9 μV 160 μV 378 μV 941 μV 7.65 mV 500 MHz 39.7 μV 39.8 μV 48.1 μV 65.1 μV 115 μV 280 μV 666 μV 5.6 mV 350 MHz 33.8 μV 33.5 μV 40 μV 54.8 μV 94.3 μV 217 μV 560 μV 4.35 mV 250 MHz 30.8 μV 31.2 μV 36.1 μV 49.9 μV 80.3 μV 187 μV 482 μV 3.75 mV 200 MHz 25.3 μV 25.4 μV 29.7 μV 44 μV 70.7 μV 165 μV 445 μV 3.3 mV 20 MHz 8.68 μV 8.9 μV 10.4 μV 15.1 μV 27.5 μV 70.4 μV 158 μV 1.41 mV
- 1 MΩ, High Res mode (RMS), typical
-
V/div 1 mV/div 2 mV/div 5 mV/div 10 mV/div 20 mV/div 50 mV/div 100 mV/div 1 V/div 500 MHz 186 μV 202 μV 210 μV 236 μV 288 μV 522 μV 1.25 mV 13.4 mV 350 MHz 134 μV 138 μV 145 μV 163 μV 216 μV 391 μV 974 μV 10.6 mV 250 MHz 108 μV 110 μV 114 μV 131 μV 182 μV 374 μV 838 μV 9.63 mV 200 MHz 106 μV 108 μV 109 μV 117 μV 149 μV 274 μV 674 μV 8.01 mV 20 MHz 73 μV 73.2 μV 78.1 μV 99.6 μV 158 μV 361 μV 801 μV 8.29 mV
- Crosstalk (channel isolation), typical
-
≥70 dB up to 2 GHz
≥60 dB up to 5 GHz
≥45 dB up to 8 GHz
for any two channels set to 200 mV/div.
Vertical system - digital channels
- Number of channels
- 8 digital inputs (D7-D0) per installed TLP058 (traded off for one analog channel)
- Vertical resolution
- 1 bit
- Maximum input toggle rate
-
500 MHz
- Minimum detectable pulse width, typical
-
1 ns
- Thresholds
- One threshold per digital channel
- Threshold range
- ±40 V
- Threshold resolution
- 10 mV
- Threshold accuracy
-
± [100 mV + 3% of threshold setting after calibration]
- Input hysteresis, typical
- 100 mV at the probe tip
- Input dynamic range, typical
- 30 Vpp for Fin ≤ 200 MHz, 10 Vpp for Fin > 200 MHz
- Absolute maximum input voltage, typical
-
±42 V peak
- Minimum voltage swing, typical
-
400 mV peak-to-peak
- Input impedance, typical
- 100 kΩ
- Probe loading, typical
- 2 pF
Horizontal system
- Time base range
- 40 ps/div to 1,000 s/div
- Sample rate range
-
6.25 S/s to 25 GS/s (real time)
50 GS/s to 2.5 TS/s (interpolated)
- Record length range
-
Applies to analog and digital channels. All acquisition modes are 250 M maximum record length, down to 1 k minimum record length, adjustable in 1 sample increments.
Standard: 62.5 Mpoints
Option 6-RL-1: 125 Mpoints
Option 6-RL-2: 250 Mpoints
- Seconds/Division range
-
Model 1 K 10 K 100 K 1 M 10 M 62.5 M 125 M 250 M MSO64 Standard 62.5 M 40 ps - 16 s 400 ps - 160 s 4 ns - 1000 s 2.5 μs - 1000 s N/A N/A MSO64 Option 6-RL-1 125 M 40 ps - 16 s 400 ps - 160 s 4 ns - 1000 s 2.5 μs - 1000 s 5 μs - 1000 s N/A MSO64 Option 6-RL-2 250 M 40 ps - 16 s 400 ps - 160 s 4 ps - 1000 s 2.5 μs - 1000 s 5 μs - 1000 s 10 μs - 1000 s
- Aperture uncertainty (sample jitter)
-
Time duration Typical jitter <1 μs 80 fs <1 ms 130 fs
- Timebase accuracy
-
±1.0 x10-7over any ≥1 ms time interval
Description Specification Factory Tolerance ±12 ppb. At calibration, 25 °C ambient, over any ≥1 ms interval Temperature stability ±20 ppb across the full operating range of 0 °C to 50 °C, after a sufficient soak time at the temperature. Tested at operating temperatures Crystal aging ±300 ppb. Frequency tolerance change at 25 °C over a period of 1 year
- Delta-time measurement accuracy
-
(assume edge shape that results from Gaussian filter response)
The formula to calculate delta-time measurement accuracy (DTA) for a given instrument setting and input signal assumes insignificant signal content above Nyquist frequency, where:
SR 1= Slew Rate (1stEdge) around 1stpoint in measurement
SR 2= Slew Rate (2ndEdge) around 2ndpoint in measurement
N = input-referred guaranteed noise limit (VRMS)
TBA = timebase accuracy or Reference Frequency Error
t p= delta-time measurement duration (sec)
1Dynamic noise is noise that appears with a signal applied (such as distortion or interleave errors).
- Maximum duration at highest sample rate
-
2.5 ms (std.) or 5 ms (opt. 6-RL-1, 125 Mpoints) or 10 ms (opt. 6-RL-2, 250 Mpoints)
- Time base delay time range
- -10 divisions to 5,000 s
- Deskew range
-
-125 ns to +125 ns with a resolution of 40 ps (for Peak Detect and Envelope acquisition modes).
-125 ns to +125 ns with a resolution of 1 ps (for all other acquisition modes).
- Delay between analog channels, full bandwidth, typical
-
≤ 10 ps for any two channels with input impedance set to 50 Ω, DC coupling with equal Volts/div or above 10 mV/div
- Delay between analog and digital FlexChannels, typical
- < 1 ns when using a TLP058 and a passive probe matching the bandwidth of the scope, with no bandwidth limits applied
- Delay between any two digital FlexChannels, typical
- 320 ps
- Delay between any two bits of a digital FlexChannel, typical
- 160 ps
Trigger system
- Trigger modes
- Auto, Normal, and Single
- Trigger coupling
-
DC, HF Reject (attenuates > 50 kHz), LF Reject (attenuates < 50 kHz), noise reject (reduces sensitivity)
- Trigger bandwidth (edge, pulse and logic), typical
-
Model Trigger type Trigger bandwidth MSO64 8 GHz Edge 8 GHz MSO64 8 GHz Pulse, Logic 4 GHz MSO64 6 GHz Edge 6 GHz MSO64 6 GHz Pulse, Logic 4 GHz MSO64 4 GHz, 2.5 GHz, 1 GHz: Edge, Pulse, Logic Product Bandwidth
- Edge-type trigger sensitivity, DC coupled, typical
-
Path Range Specification 1 MΩ path (all models) 0.5 mV/div to 0.99 mV/div 5 mV from DC to instrument bandwidth ≥ 1 mV/div The greater of 5 mV or 0.7 div from DC to lesser of 500 MHz or instrument BW, & 6 mV or 0.8 div from > 500 MHz to instrument bandwidth 50 Ω path 1 mV/div to 9.98 mV/div 3.0 div from DC to instrument bandwidth ≥ 10 mV/div < 1.0 division from DC to instrument bandwidth Line 90 V to 264 V line voltage at 50 - 60 Hz line frequency 103.5 V to 126.5 V AUX Trigger in 250 mVPP, DC to 400 MHz
- Edge-type trigger sensitivity, not DC coupled, typical
-
Trigger Coupling Typical Sensitivity NOISE REJ 2.5 times the DC Coupled limits HF REJ 1.0 times the DC Coupled limits from DC to 50 kHz. Attenuates signals above 50 kHz. LF REJ 1.5 times the DC Coupled limits for frequencies above 50 kHz. Attenuates signals below 50 kHz.
- Trigger jitter, typical
-
≤ 1.5 psRMSfor sample mode and edge-type trigger
≤ 7 psRMS≤ 2 psRMSfor edge-type trigger and FastAcq mode
≤ 40 psRMSfor non edge-type trigger modes
≤ 40 psRMSfor AUX trigger in, Sample acquisition mode, edge trigger
≤ 40 psRMSfor AUX trigger in, FastAcq acquisition mode, edge trigger
- Trigger jitter, AUX input, typical
-
≤ 200 psRMSfor sample mode and edge-type trigger
≤ 220 psRMSfor edge-type trigger and FastAcq mode
- AUX In trigger skew between instruments, typical
-
±100 ps jitter on each instrument with 1.5 ns skew; ≤1.7 ns total between instruments.
Skew improves for pulse input voltages ≥1 Vpp
- Trigger level ranges
-
Source Range Any Channel ±5 divs from center of screen Aux In Trigger ±5 V Line Fixed at about 50% of line voltage This specification applies to logic and pulse thresholds.
- Trigger frequency counter
-
8-digits (free with product registration)
- Trigger types
-
- Edge:
- Positive, negative, or either slope on any channel. Coupling includes DC, AC, noise reject, HF reject, and LF reject
- Pulse Width:
-
Trigger on width of positive or negative pulses. Event can be time- or logic-qualified
- Timeout:
- Trigger on an event which remains high, low, or either, for a specified time period. Event can be logic-qualified
- Runt:
- Trigger on a pulse that crosses one threshold but fails to cross a second threshold before crossing the first again. Event can be time- or logic-qualified
- Window:
- Trigger on an event that enters, exits, stays inside or stays outside of a window defined by two user-adjustable thresholds. Event can be time- or logic-qualified
- Logic:
- Trigger when logic pattern goes true, goes false, or occurs coincident with a clock edge. Pattern (AND, OR, NAND, NOR) specified for all input channels defined as high, low, or don't care. Logic pattern going true can be time-qualified
- Setup & Hold:
- Trigger on violations of both setup time and hold time between clock and data present on any input channels
- Rise / Fall Time:
- Trigger on pulse edge rates that are faster or slower than specified. Slope may be positive, negative, or either. Event can be logic-qualified
- Sequence:
-
Trigger on B event X time or N events after A trigger with a reset on C event. In general, A and B trigger events can be set to any trigger type with a few exceptions: logic qualification is not supported, if A event or B event is set to Setup & Hold, then the other must be set to Edge, and Ethernet and High Speed USB (480 Mbps) are not supported
- Visual trigger
- Qualifies standard triggers by scanning all waveform acquisitions and comparing them to on-screen areas (geometric shapes). An unlimited number of areas can be defined with In, Out, or Don't Care as the qualifier for each area. A boolean expression can be defined using any combination of visual trigger areas to further qualify the events that get stored into acquisition memory. Shapes include rectangle, triangle, trapezoid, hexagon and user-defined.
- Parallel Bus:
- Trigger on a parallel bus data value. Parallel bus can be from 1 to 32 bits (from the digital and analog channels) in size. Supports Binary and Hex radices
- I2C Bus (option 6-SREMBD):
- Trigger on Start, Repeated Start, Stop, Missing ACK, Address (7 or 10 bit), Data, or Address and Data on I2C buses up to 10 Mb/s
- SPI Bus (option 6-SREMBD):
- Trigger on Slave Select, Idle Time, or Data (1-16 words) on SPI buses up to 20 Mb/s
- RS-232/422/485/UART Bus (option 6-SRCOMP):
- Trigger on Start Bit, End of Packet, Data, and Parity Error up to 15 Mb/s
- CAN Bus (option 6-SRAUTO):
- Trigger on Start of Frame, Type of Frame (Data, Remote, Error, or Overload), Identifier, Data, Identifier and Data, End Of Frame, Missing Ack, and Bit Stuff Error on CAN buses up to 1 Mb/s
- CAN FD Bus (option 6-SRAUTO):
- Trigger on Start of Frame, Type of Frame (Data, Remote, Error, or Overload), Identifier (Standard or Extended), Data (1-8 bytes), Identifier and Data, End Of Frame, Error (Missing Ack, Bit Stuffing Error, FD Form Error, Any Error) on CAN FD buses up to 16 Mb/s
- LIN Bus (option 6-SRAUTO):
- Trigger on Sync, Identifier, Data, Identifier and Data, Wakeup Frame, Sleep Frame, and Error on LIN buses up to 1 Mb/s
- FlexRay Bus (option 6-SRAUTO):
- Trigger on Start of Frame, Indicator Bits (Normal, Payload, Null, Sync, Startup), Frame ID, Cycle Count, Header Fields (Indicator Bits, Identifier, Payload Length, Header CRC, and Cycle Count), Identifier, Data, Identifier and Data, End Of Frame, and Errors on FlexRay buses up to 10 Mb/s
- SENT Bus (option 6-SRAUTOSEN)
- Trigger on Start of Packet, Fast Channel Status and Data, Slow Channel Message ID and Data, and CRC Errors
- SPMI Bus (option 6-SRPM):
- Trigger on Sequence Start Condition, Reset, Sleep, Shutdown, Wakeup, Authenticate, Master Read, Master Write, Register Read, Register Write, Extended Register Read, Extended Register Write, Extended Register Read Long, Extended Register Write Long, Device Descriptor Block Master Read, Device Descriptor Block Slave Read, Register 0 Write, Transfer Bus Ownership, and Parity Error
- USB 2.0 LS/FS/HS Bus (option 6-SRUSB2):
- Trigger on Sync, Reset, Suspend, Resume, End of Packet, Token (Address) Packet, Data Packet, Handshake Packet, Special Packet, Error on USB buses up to 480 Mb/s
- Ethernet Bus (option 6-SRENET):
- Trigger on Start of Frame, MAC Addresses, MAC Q-tag, MAC Length/Type, MAC Data, IP Header, TCP Header, TCP/IPV4 Data, End of Packet, and FCS (CRC) Error on 10BASE-T and 100BASE-TX buses
- Audio (I2S, LJ, RJ, TDM) Bus (option 6-SRAUDIO):
- Trigger on Word Select, Frame Sync, or Data. Maximum data rate for I2S/LJ/RJ is 12.5 Mb/s. Maximum data rate for TDM is 25 Mb/s
- MIL-STD-1553 Bus (option 6-SRAERO):
- Trigger on Sync, Command (Transmit/Receive Bit, Parity, Subaddress / Mode, Word Count / Mode Count, RT Address), Status (Parity, Message Error, Instrumentation, Service Request, Broadcast Command Received, Busy, Subsystem Flag, Dynamic Bus Control Acceptance, Terminal Flag), Data, Time (RT/IMG), and Error (Parity Error, Sync Error, Manchester Error, Non-contiguous Data) on MIL-STD-1553 buses
- ARINC 429 Bus (option 6-SRAERO):
- Trigger on Word Start, Label, Data, Label and Data, Word End, and Error (Any Error, Parity Error, Word Error, Gap Error) on ARINC 429 buses up to 1 Mb/s
- Trigger holdoff range
- 0 ns to 10 seconds
Acquisition system
- Sample
- Acquires sampled values
- Peak Detect
- Captures glitches as narrow as 160 ps at all sweep speeds
- Averaging
- From 2 to 10,240 waveforms
- Envelope
- Min-max envelope reflecting Peak Detect data over multiple acquisitions
- High Res
-
Applies a unique Finite Impulse Response (FIR) filter for each sample rate that maintains the maximum bandwidth possible for that sample rate while preventing aliasing and removing noise from the oscilloscope amplifiers and ADC above the usable bandwidth for the selected sample rate.
High Res mode always provides at least 12 bits of vertical resolution and extends all the way to 16 bits of vertical resolution at ≤ 625 MS/s sample rates.
- FastAcq®
-
FastAcq optimizes the instrument for analysis of dynamic signals and capture of infrequent events.
Maximum waveform capture rate:
>500,000 wfms/s (Peak Detect or Envelope Acquisition mode)
>30,000 wfms/s (All other acquisition modes)
- Roll mode
-
Scrolls sequential waveform points across the display in a right-to-left rolling motion, at timebase speeds of 40 ms/div and slower, when in Auto trigger mode.
- FastFrame™
-
Acquisition memory divided into segments.
Maximum trigger rate >5,000,000 waveforms per second
Minimum frame size = 50 points
Maximum Number of Frames: For frame size ≥ 1,000 points, maximum number of frames = record length / frame size.
For 50 point frames, maximum number of frames = 691,000
Waveform measurements
- Cursor types
- Waveform, V Bars, H Bars, and V&H Bars
- DC voltage measurement accuracy, Average acquisition mode
-
Measurement Type DC Accuracy (In Volts) Average of ≥ 16 waveforms ±((DC Gain Accuracy) * |reading - (offset - position)| + Offset Accuracy + 0.05 * V/div setting) Delta volts between any two averages of ≥ 16 waveforms acquired with the same oscilloscope setup and ambient conditions ±(DC Gain Accuracy * |reading| + 0.1 div)
- Automatic measurements
-
36, of which an unlimited number can be displayed as either individual measurement badges or collectively in a measurement results table
- Amplitude measurements
-
Amplitude, Maximum, Minimum, Peak-to-Peak, Positive Overshoot, Negative Overshoot, Mean, RMS, AC RMS, Top, Base, and Area
- Timing measurements
-
Period, Frequency, Unit Interval, Data Rate, Positive Pulse Width, Negative Pulse Width, Skew, Delay, Rise Time, Fall Time, Phase, Rising Slew Rate, Falling Slew Rate, Burst Width, Positive Duty Cycle, Negative Duty Cycle, Time Outside Level, Setup Time, Hold Time, Duration N-Periods, High Time, and Low Time
- Jitter measurements (standard)
- TIE and Phase Noise
- Measurement statistics
- Mean, Standard Deviation, Maximum, Minimum, and Population. Statistics are available on both the current acquisition and all acquisitions
- Reference levels
- User-definable reference levels for automatic measurements can be specified in either percent or units. Reference levels can be set to global for all measurements, per source channel or signal, or unique for each measurement
- Gating
- Screen, Cursors, Logic, Search, or Time. Specifies the region of an acquisition in which to take measurements. Gating can be set to Global (affects all measurements set to Global) or Local (all measurements can have a unique Time gate setting; only one Local gate is available for Screen, Cursors, Logic, and Search actions).
- Measurement plots
- Time Trend, Histogram, and Spectrum plots are available for all standard measurements
- Jitter analysis (option 6-DJA) adds the following:
-
- Measurements
-
Jitter Summary, TJ@BER, RJ- δδ, DJ- δδ, PJ, RJ, DJ, DDJ, DCD, SRJ, J2, J9, NPJ, F/2, F/4, F/8, Eye Height, Eye Height@BER, Eye Width, Eye Width@BER, Eye High, Eye Low, Q-Factor, Bit High, Bit Low, Bit Amplitude, DC Common Mode, AC Common Mode (Pk-Pk), Differential Crossover, T/nT Ratio, SSC Freq Dev, SSC Modulation Rate
- Measurement Plots
- Eye Diagram and Jitter Bathtub
- Eye Diagram Mask Testing
-
Automated mask pass/fail testing
- Power analysis (option 6-PWR) adds the following:
-
- Measurements
-
Input Analysis (Frequency, VRMS, IRMS, voltage and current Crest Factors, True Power, Apparent Power, Reactive Power, Power Factor, Phase Angle, Harmonics, Inrush Current, Input Capacitance )
Amplitude Analysis (Cycle Amplitude, Cycle Top, Cycle Base, Cycle Maximum, Cycle Minimum, Cycle Peak-to-Peak)
Timing Analysis (Period, Frequency, Negative Duty Cycle, Positive Duty Cycle, Negative Pulse Width, Positive Pulse Width)
Switching Analysis (Switching Loss, dv/dt, di/dt, Safe Operating Area, RDSon)
Magnetic Analysis (Inductance, I vs. Intg(V), Magnetic Loss, Magnetic Property)
Output Analysis (Line Ripple, Switching Ripple, Efficiency, Turn-on Time, Turn-off Time)
Frequency Response Analysis (Control Loop Response Bode Plot, Power Supply Rejection Ratio, Impedance)
- Measurement Plots
- Harmonics Bar Graph, Switching Loss Trajectory Plot, and Safe Operating Area
- Digital Power Management (option 6-DPM) adds the following:
-
- Measurements
-
Ripple Analysis (Ripple)
Transient Analysis (Overshoot, Undershoot)
Power Sequence Analysis (Turn-on, Turn-off)
- DDR3/LPDDR3 memory debug and analysis option (6-DBDDR3) adds the following:
-
- Measurements
-
Amplitude Measurements (AOS, AUS, Vix(ac), AOS Per tCK, AUS Per tCK, AOS Per UI, AUS Per UI)
Time Measurements (tRPRE, tWPRE, tPST, Hold Diff, Setup Diff, tCH(avg), tCK(avg), tCL(avg), tCH(abs), tCL(abs), tJIT(duty), tJIT(per), tJIT(cc), tERR(n), tERR(m-n), tDQSCK, tCMD-CMD, tCKSRE, tCKSRX)
Waveform math
- Number of math waveforms
- Unlimited
- Arithmetic
- Add, subtract, multiply, and divide waveforms and scalars
- Algebraic expressions
- Define extensive algebraic expressions including waveforms, scalars, user-adjustable variables, and results of parametric measurements. Perform math on math using complex equations. For example (Integral (CH1 - Mean(CH1)) X 1.414 X VAR1)
- Math functions
- Invert, Integrate, Differentiate, Square Root, Exponential, Log 10, Log e, Abs, Ceiling, Floor, Min, Max, Degrees, Radians, Sin, Cos, Tan, ASin, ACos, and ATan
- Relational
- Boolean result of comparison >, <, ≥, ≤, =, and ≠
- Logic
- AND, OR, NAND, NOR, XOR, and EQV
- Filtering function
- User-definable filters. Users specify a file containing the coefficients of the filter
- FFT functions
- Spectral Magnitude and Phase, and Real and Imaginary Spectra
- FFT vertical units
-
Magnitude: Linear and Log (dBm)
Phase: Degrees, Radians, and Group Delay
- FFT window functions
- Hanning, Rectangular, Hamming, Blackman-Harris, Flattop2, Gaussian, Kaiser-Bessel, and TekExp
Spectrum View
- Center Frequency
- Limited by instrument analog bandwidth
- Span
- 74.5 Hz – 1.25 GHz
18.6 Hz to 500 MHz (with option -SV-BW-1)
74.5 Hz - 2 GHz (with option 6-SV-BW-1)
Coarse adjustment in a 1-2-5 sequence
- RF vs. Time Traces
- Magnitude vs. time, Frequency vs. time, Phase vs. time
- Resolution Bandwidth (RBW)
-
93 μHz to 62.5 MHz
93 μHz to 100 MHz (with option 6-SV-BW-1)
- Window types and factors
-
Window type Factor Blackman-Harris 1.90 Flat-Top 2 3.77 Hamming 1.30 Hanning 1.44 Kaiser-Bessel 2.23 Rectangular 0.89
- Spectrum Time
- FFT Window Factor / RBW
- Reference level
- Reference level is automatically set by the analog channel Volts/div setting
Setting range: -42 dBm to +44 dBm
- Vertical Position
- -100 divs to +100 divs
- Vertical units
- dBm, dBµW, dBmV, dBµV, dBmA, dBµA
Search
- Number of searches
- Unlimited
- Search types
-
Search through long records to find all occurrences of user specified criteria including edges, pulse widths, timeouts, runt pulses, window violations, logic patterns, setup & hold violations, rise/fall times, and bus protocol events. Search results can be viewed in the Waveform View or in the Results table.
Display
- Display type
- 15.6 in. (395 mm) liquid-crystal TFT color display
- Resolution
- 1,920 horizontal × 1,080 vertical pixels (High Definition)
- Display modes
-
Overlay: traditional oscilloscope display where traces overlay each other
Stacked: display mode where each waveform is placed in its own slice and can take advantage of the full ADC range while still being visually separated from other waveforms. Groups of channels can also be overlaid within a slice to simplify visual comparison of signals.
- Zoom
- Horizontal and vertical zooming is supported in all waveform and plot views.
- Interpolation
- Sin(x)/x and Linear
- Waveform styles
- Vectors, dots, variable persistence, and infinite persistence
- Graticules
- Movable and fixed graticules, selectable between Grid, Time, Full, and None
- Color palettes
- Normal and inverted for screen captures
Individual waveform colors are user-selectable
- Format
- YT, XY, and XYZ
- Local Language User Interface
- English, Japanese, Simplified Chinese, Traditional Chinese, French, German, Italian, Spanish, Portuguese, Russian, Korean
- Local Language Help
- English, Japanese, Simplified Chinese
Arbitrary/Function Generator (optional)
- Function types
- Arbitrary, sine, square, pulse, ramp, triangle, DC level, Gaussian, Lorentz, exponential rise/fall, sin(x)/x, random noise, Haversine, Cardiac
- Amplitude range
- Values are peak-to-peak voltages
Waveform 50 Ω 1 MΩ Arbitrary 10 mV to 2.5 V 20 mV to 5 V Sine 10 mV to 2.5 V 20 mV to 5 V Square 10 mV to 2.5 V 20 mV to 5 V Pulse 10 mV to 2.5 V 20 mV to 5 V Ramp 10 mV to 2.5 V 20 mV to 5 V Triangle 10 mV to 2.5 V 20 mV to 5 V Gaussian 10 mV to 1.25 V 20 mV to 2.5 V Lorentz 10 mV to 1.2 V 20 mV to 2.4 V Exponential Rise 10 mV to 1.25 V 20 mV to 2.5 V Exponential Fall 10 mV to 1.25 V 20 mV to 2.5 V Sine(x)/x 10 mV to 1.5 V 20 mV to 3.0 V Random Noise 10 mV to 2.5 V 20 mV to 5 V Haversine 10 mV to 1.25 V 20 mV to 2.5 V Cardiac 10 mV to 2.5 V 20 mV to 5 V
- Sine waveform
-
- Frequency range
- 0.1 Hz to 50 MHz
- Frequency setting resolution
- 0.1 Hz
- Frequency accuracy
- 130 ppm (frequency ≤ 10 kHz), 50 ppm (frequency > 10 kHz)
This is for Sine, Ramp, Square and Pulse waveforms only.
- Amplitude range
- 20 mVpp to 5 Vpp into Hi-Z; 10 mVpp to 2.5 Vpp into 50 Ω
- Amplitude flatness, typical
-
±0.5 dB at 1 kHz
±1.5 dB at 1 kHz for < 20 mVppamplitudes
- Total harmonic distortion, typical
-
1% for amplitude ≥ 200 mVppinto 50 Ω load
2.5% for amplitude > 50 mV AND < 200 mVppinto 50 Ω load
This is for Sine wave only.
- Spurious free dynamic range, typical
-
40 dB (Vpp≥ 0.1 V); 30 dB (Vpp≥ 0.02 V), 50 Ω load
- Square and pulse waveform
-
- Frequency range
- 0.1 Hz to 25 MHz
- Frequency setting resolution
- 0.1 Hz
- Frequency accuracy
- 130 ppm (frequency ≤ 10 kHz), 50 ppm (frequency > 10 kHz)
- Amplitude range
- 20 mVpp to 5 Vpp into Hi-Z; 10 mVpp to 2.5 Vpp into 50 Ω
- Duty cycle range
- 10% - 90% or 10 ns minimum pulse, whichever is larger
Minimum pulse time applies to both on and off time, so maximum duty cycle will reduce at higher frequencies to maintain 10 ns off time
- Duty cycle resolution
- 0.1%
- Minimum pulse width, typical
- 10 ns. This is the minimum time for either on or off duration.
- Rise/Fall time, typical
- 5 ns, 10% - 90%
- Pulse width resolution
- 100 ps
- Overshoot, typical
- < 6% for signal steps greater than 100 mVpp
This applies to overshoot of the positive-going transition (+overshoot) and of the negative-going (-overshoot) transition
- Asymmetry, typical
- ±1% ±5 ns, at 50% duty cycle
- Jitter, typical
- < 60 ps TIERMS, ≥ 100 mVpp amplitude, 40%-60% duty cycle
Square and pulse waveforms, 5 GHz measurement BW.
- Ramp and triangle waveform
-
- Frequency range
- 0.1 Hz to 500 kHz
- Frequency setting resolution
- 0.1 Hz
- Frequency accuracy
- 130 ppm (frequency ≤ 10 kHz), 50 ppm (frequency > 10 kHz)
- Amplitude range
- 20 mVpp to 5 Vpp into Hi-Z; 10 mVpp to 2.5 Vpp into 50 Ω
- Variable symmetry
- 0% - 100%
- Symmetry resolution
- 0.1%
- DC level range
-
±2.5 V into Hi-Z
±1.25 V into 50 Ω
- Random noise amplitude range
-
20 mVppto 5 Vppinto Hi-Z
10 mVppto 2.5 Vppinto 50 Ω
- Sin(x)/x
-
- Maximum frequency
- 2 MHz
- Gaussian pulse, Haversine, and Lorentz pulse
-
- Maximum frequency
- 5 MHz
- Lorentz pulse
-
- Frequency range
- 0.1 Hz to 5 MHz
- Amplitude range
- 20 mVpp to 2.4 Vpp into Hi-Z
10 mVppto 1.2 Vppinto 50 Ω
- Cardiac
-
- Frequency range
- 0.1 Hz to 500 kHz
- Amplitude range
- 20 mVpp to 5 Vpp into Hi-Z
10 mVppto 2.5 Vppinto 50 Ω
- Arbitrary
-
- Memory depth
- 1 to 128 k
- Amplitude range
- 20 mVpp to 5 Vpp into Hi-Z
10 mVppto 2.5 Vppinto 50 Ω
- Repetition rate
- 0.1 Hz to 25 MHz
- Sample rate
- 250 MS/s
- Signal amplitude accuracy
- ±[ (1.5% of peak-to-peak amplitude setting) + (1.5% of absolute DC offset setting) + 1 mV ] (frequency = 1 kHz)
- Signal amplitude resolution
-
1 mV (Hi-Z)
500 μV (50 Ω)
- Sine and ramp frequency accuracy
-
130 ppm (frequency ≤10 kHz)
50 ppm (frequency >10 kHz)
- DC offset range
-
±2.5 V into Hi-Z
±1.25 V into 50 Ω
- DC offset resolution
-
1 mV (Hi-Z)
500 μV (50 Ω)
- DC offset accuracy
-
±[ (1.5% of absolute offset voltage setting) + 1 mV ]
Add 3 mV of uncertainty per 10 °C change from 25 °C ambient
Digital volt meter (DVM)
- Measurement types
-
DC, ACRMS+DC, ACRMS, Trigger frequency count
- Voltage resolution
- 4 digits
- Voltage accuracy
-
- DC:
-
±((1.5% * |reading - offset - position|) + (0.5% * |(offset - position)|) + (0.1 * Volts/div))
De-rated at 0.100%/°C of |reading - offset - position| above 30 °C
Signal ± 5 divisions from screen center
- AC:
-
± 3% (40 Hz to 1 kHz) with no harmonic content outside 40 Hz to 1 kHz
AC, typical: ± 2% (20 Hz to 10 kHz)
For AC measurements, the input channel vertical settings must allow the VPPinput signal to cover between 4 and 10 divisions and must be fully visible on the screen
Trigger frequency counter
- Resolution
-
8-digits
- Accuracy
-
±(1 count + time base accuracy * input frequency)
The signal must be at least 8 mVppor 2 div, whichever is greater.
- Maximum input frequency
-
10 Hz to maximum bandwidth of the analog channel
The signal must be at least 8 mVppor 2 div, whichever is greater.
Processor system
- Host processor
- Intel i5-4400E, 2.7 GHz, 64-bit, dual core processor
- Internal storage
- ≥ 80 GB. Form factor is an 80 mm m.2 card with a SATA-3 interface
- Operating system
- Solid State Drive (SSD) with Microsoft Windows 10 OS (option 6-WIN)
-
≥ 480 GB SSD. Form factor is a 2.5-inch SSD with a SATA-3 interface. This drive is customer installable and includes the Microsoft Windows 10 Enterprise IoT 2016 LTSB (64-bit) operating system
Input-Output ports
- DisplayPort connector
-
A 20-pin DisplayPort connector; connect to show the oscilloscope display on an external monitor or projector
- DVI connector
-
A 29-pin DVI-I connector; connect to show the oscilloscope display on an external monitor or projector
- VGA
-
DB-15 female connector; connect to show the oscilloscope display on an external monitor or projector
- Probe compensator signal, typical
-
- Connection:
- Connectors are located on the lower front right of the instrument
- Amplitude:
- 0 to 2.5 V
- Frequency:
- 1 kHz
- Source impedance:
- 1 kΩ
- External reference input
- The time-base system can phase lock to an external 10 MHz reference signal .
There are two ranges for the reference clock.
The instrument can accept a high-accuracy reference clock of 10 MHz ±2 ppm or a lower-accuracy reference clock of 10 MHz ±1 kppm.
- USB interface (Host, Device ports)
-
Front panel USB Host ports: Two USB 2.0 Hi-Speed ports, one USB 3.0 SuperSpeed port
Rear panel USB Host ports: Two USB 2.0 Hi-Speed ports, two USB 3.0 SuperSpeed ports
Rear panel USB Device port: One USB 3.0 SuperSpeed Device port providing USBTMC support
- Ethernet interface
- 10/100/1000 Mb/s
- Auxiliary output
-
Rear-panel BNC connector. Output can be configured to provide a positive or negative pulse out when the oscilloscope triggers, the internal oscilloscope reference clock out, or an AFG sync pulse
Characteristic Limits Vout (HI) ≥ 2.5 V open circuit; ≥ 1.0 V into a 50 Ω load to ground Vout (LO) ≤ 0.7 V into a load of ≤ 4 mA; ≤0.25 V into a 50 Ω load to ground
- Kensington-style lock
- Rear-panel security slot connects to standard Kensington-style lock
- LXI
-
Class: LXI Core 2011
Version: 1.4
Power source
- Power
-
- Power consumption
-
400 Watts maximum
- Source voltage
- 100 - 240 V ±10% at 50 Hz to 60 Hz
115 V ±10% at 400 Hz
Physical characteristics
- Dimensions
-
Height: 12.2 in (309 mm), feet folded in, handle to back
Height: 14.6 in (371 mm) feet folded in, handle up
Width: 17.9 in (454 mm) from handle hub to handle hub
Depth: 8.0 in (205 mm) from back of feet to front of knobs, handle up
Depth: 11.7 in (297.2 mm) feet folded in, handle to the back
- Weight
-
< 28.4 lbs (12.88 kg)
- Cooling
- The clearance requirement for adequate cooling is 2.0 in (50.8 mm) on the right side of the instrument (when viewed from the front) and on the rear of the instrument
- Rackmount configuration
- 7U (with optional RM6 Rackmount Kit)
Environmental specifications
- Temperature
-
- Operating
- +0 °C to +50 °C (32 °F to 122 °F)
- Non-operating
-
-20 °C to +60 °C (-4 °F to 140 °F)
- Humidity
-
- Operating
-
5% to 90% relative humidity (% RH) at up to +40 °C
5% to RH above +40 °C up to +50 °C, noncondensing
- Non-operating
-
5% to 90% relative humidity (% RH) at up to +60 °C, noncondensing
- Altitude
-
- Operating
- Up to 3,000 meters (9,843 feet)
- Non-operating
- Up to 12,000 meters (39,370 feet)
EMC, Environmental, and Safety
- Regulatory
-
CE marked for the European Union and UL approved for the USA and Canada
RoHS compliant
Software
- Software
-
- IVI driver
-
Provides a standard instrument programming interface for common applications such as LabVIEW, LabWindows/CVI, Microsoft .NET, and MATLAB. Compatible with Python, C/C++/C# and many other languages through VISA.
- e*Scope®
-
Enables control of the oscilloscope over a network connection through a standard web browser. Simply enter the IP address or network name of the oscilloscope and a web page will be served to the browser. Transfer and save settings, waveforms, measurements, and screen images or make live control changes to settings on the oscilloscope directly from the web browser.
- LXI Web interface
-
Connect to the oscilloscope through a standard Web browser by simply entering the oscilloscope's IP address or network name in the address bar of the browser. The Web interface enables viewing of instrument status and configuration, status and modification of network settings, and instrument control through the e*Scope web-based remote control. All web interaction conforms to LXI Core specification, version 1.4.
Товар |
|
|
Модели и Опции |
Описание |
Цена | Заказать |
0
Модели |
MSO64 6-BW-1000
|
Осциллограф смешанных сигналов, 4 канала, 1 ГГц
|
$35 366.64 | ||
MSO64 6-BW-2500
|
Осциллограф смешанных сигналов, 4 канала, 2,5 ГГц
|
$43 911.60 | ||
MSO64 6-BW-4000
|
Осциллограф смешанных сигналов, 4 канала, 4 ГГц
|
$55 660.92 | ||
MSO64 6-BW-6000
|
Осциллограф смешанных сигналов, 4 канала, 6 ГГц
|
$77 616.72 | ||
MSO64 6-BW-8000
|
Осциллограф смешанных сигналов, 4 канала, 8 ГГц
|
$100 996.68 |
5
Опции |
6-AFG
|
Добавить генератор функций/сигналов произвольной формы
|
$1 949.48 | ||
6-SEC
|
Повышает уровень защиты прибора за счет использования пароля для включения и выключения всех портов и обновления встроенного ПО
|
$857.53 | ||
6-DJA
|
Расширенный анализ джиттера и глазковых диаграмм
|
$10 560.68 | ||
6-DPM
|
Цифровое управление питанием
|
$8 360.04 | ||
6-PAM3
|
Анализ PAM3
|
$9 783.28 | ||
6-PWR
|
Измерения и анализ электрической мощности
|
$5 334.16 | ||
6-SV-BW-1
|
Опция расширения захвата сигнала в частотной области до 500 МГц
|
$29 062.80 | ||
6-SV-RFVT
|
Опция частотного анализа относительно временной области
|
$10 775.96 | ||
6-RL-1
|
Расширение длины записи с 62.5 Мвыб/канал до 125 Мвыб/канал
|
$4 245.80 | ||
6-RL-2
|
Расширение длины записи с 62.5 Мвыб/канал до 250 Мвыб/канал
|
$8 431.80 | ||
6-WIN
|
Добавить съемный SSD с ОС Microsoft Windows 10
|
По запросу |
16
Аксессуары |
HC5
|
Жесткий кейс для переноски
|
$1 698.32 | ||
RM5
|
Комплект для монтажа в стойку
|
$1 483.04 |
18
Пробники |
TAP1500
|
1.5 ГГц TekVPI® активный пробник напряжения, ±8 В входное напряжение
|
$5 130.84 | ||
TAP2500
|
2.5 ГГц TekVPI® активный пробник напряжения, ±4 В входное напряжение
|
$7 223.84 | ||
TAP3500
|
3.5 ГГц TekVPI® активный пробник напряжения, ±4 В
|
$9 257.04 | ||
TAP4000
|
4 ГГц TekVPI® активный пробник напряжения, ±4 В
|
$9 651.72 | ||
TCP0030A
|
30 A AC/DC TekVPI® пробник тока, 120 МГц
|
$6 613.88 | ||
TCP0020
|
20 A AC/DC TekVPI® пробник тока, 50 МГц
|
$4 616.56 | ||
TCP0150
|
150 A AC/DC TekVPI® пробник тока, 20 МГц
|
$7 809.88 | ||
TRCP0300
|
30 МГц AC пробник тока, 250 мА - 300 A
|
$2 870.40 | ||
TRCP0600
|
30 МГц AC пробник тока, 500 мА - 600 A
|
$3 157.44 | ||
TRCP3000
|
16 МГц AC пробник тока, 500 мА - 3000 A
|
$3 061.76 | ||
TDP0500
|
500 МГц TekVPI® дифференциальный пробник напряжения, ±42 В дифф. входное напряжение
|
$6 099.60 | ||
TDP1000
|
1 ГГц TekVPI® дифференциальный пробник напряжения, ±42 В дифф. входное напряжение
|
$6 912.88 | ||
TDP1500
|
1.5 ГГц TekVPI® дифференциальный пробник напряжения, ±8.5 В дифф. входное напряжение
|
$7 187.96 | ||
TDP3500
|
3.5 GHz TekVPI® дифференциальный пробник напряжения, ±2 В
|
$8 958.04 | ||
TDP4000
|
4 ГГц TekVPI® дифференциальный пробник напряжения, ±2 В
|
$9 233.12 | ||
TDP7706
|
6 ГГц TriMode™ пробник напряжения
|
$12 199.20 | ||
TDP7708
|
8 ГГц TriMode™ пробник напряжения
|
$13 395.20 | ||
TDP7704
|
4 ГГц TriMode™ пробник напряжения
|
$11 003.20 | ||
THDP0100
|
±6 кВ, 100 МГц TekVPI® высоковольтный дифференциальный пробник
|
$5 417.88 | ||
THDP0200
|
±1.5 кВ, 200 МГц TekVPI® высоковольтный дифференциальный пробник
|
$3 205.28 | ||
TMDP0200
|
±750 В, 200 МГц TekVPI® высоковольтный дифференциальный пробник
|
$3 265.08 | ||
TPR1000
|
1 ГГц, Single-Ended TekVPI® Power-Rail Probe; includes one TPR4KIT accessory kit
|
$6 255.08 | ||
TIVH02
|
Гальванически развязанный пробник; 200 МГц, ±2500 В, TekVPI, 3 м кабель
|
$20 412.96 | ||
TIVH02L
|
Гальванически развязанный пробник; 200 МГц, ±2500 В, TekVPI, 10 м кабель
|
$22 193.16 | ||
TIVH05
|
Гальванически развязанный пробник; 500 МГц, ±2500 В, TekVPI, 3 м кабель
|
$28 245.84 | ||
TIVH05L
|
Гальванически развязанный пробник; 500 МГц, ±2500 В, TekVPI, 10 м кабель
|
$30 144.72 | ||
TIVH08
|
Гальванически развязанный пробник; 800 МГц, ±2500 В, TekVPI, 3 м кабель
|
$36 909.48 | ||
TIVH08L
|
Гальванически развязанный пробник; 800 МГц, ±2500 В, TekVPI, 10 м кабель
|
$38 808.36 | ||
TIVM1
|
Гальванически развязанный пробник; 1 ГГц, ±50 В, TekVPI, 3 м кабель
|
$35 247.96 | ||
TIVM1L
|
Гальванически развязанный пробник; 1 ГГц, ±50 В, TekVPI, 10 м кабель
|
$37 384.20 | ||
TPP0502
|
500 МГц, 2X TekVPI® пассивный пробник напряжения, 12.7 пФ
|
$808.50 | ||
TPP0850
|
2.5 kV, 800 МГц, 50X TekVPI® высоковольтный пассивный пробник напряжения
|
$1 435.20 | ||
TPP1000
|
1 ГГц, 10X TekVPI® пассивный пробник напряжения, 1.3 м кабель, 3.9 пФ
|
$1 207.96 | ||
P6015A
|
20 кВ, 75 МГц высоковольтный пробник напряжения
|
$3 934.84 | ||
TPA-BNC
|
TekVPI® - TekProbe™ BNC адаптер
|
$882.65 | ||
TEK-DPG
|
Генератор импульсов с компенсацией фазовых сдвигов TekVPI
|
$1 435.20 | ||
067-1686-xx
|
Приспособление для компенсации фазовых сдвигов и калибровки пробников
|
По запросу |
55
Мэйнфрейм |
MSO64
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Осциллограф смешанных сигналов MSO серия 6, 4 Flexchannel, 62,5 Мвыб
|
По запросу |
56
Опции анализа последовательных шин данных |
6-SRAERO
|
Запуск и анализ по Aerospace (MIL-STD-1553, ARINC 429)
|
$3 384.68 | ||
6-SRAUDIO
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Запуск и анализ по аудио шинам I2S, LJ, RJ, TDM
|
$3 384.68 | ||
6-SRAUTO
|
Запуск и анализ по автомобильным шинам (CAN, CAN FD, LIN, FlexRay, and CAN symbolic decoding)
|
$3 384.68 | ||
6-SRAUTOEN1
|
Анализ последовательной шины 100BASE-T1 Ethernet
|
$9 125.48 | ||
6-SRAUTOSEN
|
Запуск и анализ по автомобильным датчикам (SENT)
|
$3 384.68 | ||
6-SRCOMP
|
Запуск и анализ по RS-232/422/485/UART
|
$3 384.68 | ||
6-SREMBD
|
Запуск и анализ по I2C, SPI
|
$3 384.68 | ||
6-SRENET
|
Запуск и анализ Ethernet 10BASE-T, 100BASE-TX
|
$3 384.68 | ||
6-SRI3C
|
Запуск и декодирование по MIPI I3C
|
$3 384.68 | ||
6-SRPM
|
Запуск и анализ по SPMI
|
$3 384.68 | ||
6-SRSPACEWIRE
|
Декодировка протокола SPACEWIRE (полоса пропускания >500 МГц, нет аппаратной части запуска)
|
$3 384.68 | ||
6-SRUSB2
|
Анализ и запуск по сигналам последовательных шин USB (USB 2.0 низко-, полно- и высокоскоростных)
|
$3 384.68 |
68
Тестирование на соответствие последовательных шин данных |
6-CMAUTOEN
|
Тесты соответствия Ethernet (100Base-T1, 1000Base-T1)
|
$9 783.28 | ||
6-CMDPHY
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Тесты соответствия MIPI D-PHY 1.2 (минимальная полоса пропускания 4 ГГц) с использованием TekExpress Automation Platform
|
$11 900.20 | ||
6-CMENET
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Тесты соответствия Ethernet (1000Base-T, 100Base-T, 10Base-T) (мин. ПП 1 ГГц) с использованием TekExpress Automation Platform
|
$12 677.60 | ||
6-CMNBASET
|
Тесты соответствия Ethernet (2.5G и 5G BASE-T) (мин. ПП 2.5 ГГц) с использованием TekExpress Automation Platform
|
$11 888.24 | ||
6-CMUSB2
|
Тесты соответствия USB2.0 (Требуется тестовая оснастка TDSUSBF). Для тестирования высокоскоростной USB требуется ПП 2.5 ГГц
|
$5 214.56 | ||
6-CMXGBT
|
Тесты соответствия Ethernet (10G BASE-T) (мин. ПП 4 ГГц) с использованием TekExpress Automation Platform
|
$11 888.24 |
74
Анализ DDR памяти |
6-CMDDR3
|
Тесты соответствия DDR3 и LPDDR3 (Мин. полоса пропускания 4 ГГц (800MT/s) с использованием TekExpress Automation Platform. Требуются опци 6-DBDDR3 и 6-DJA
|
$11 924.12 | ||
6-DBDDR3
|
Анализ и запуск по DDR3 и LPDDR3 (Мин. ПП 4 ГГц (800MT/s), рекомендуется ПП 8 ГГц для тестирования всех скоростей DDR3). Требуется опция 6-DJA
|
$6 434.48 |