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M4x AWG(高速任意波形発生器)

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M4x.66xx 16ビット、625MS/s, 1.25GS/s、1,2,4チャネル

1/2/4チャネル
出力電圧:±80mV~±2.5V (50Ω負荷)、±160mV~5V(1MΩ)
チャネル毎に独立した16ビットDAおよびアンプ
全チャネル同期出力
入力オフセット及び振幅: プログラマブル制御可能
出力:FIFO、Streaming、シングルショット、ループ、ゲート出力、シーケンス出力
PCとの接続:PXIe Gen2 x4 2枚幅

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ドキュメント名 M4x AWG(高速任意波形発生器)
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取り扱い企業 株式会社エレクトロニカ IMT事業部 (この企業の取り扱いカタログ一覧)

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オシロスコープとデジタイザはどう違う?【ハンドブック】 ver3
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株式会社エレクトロニカ IMT事業部

SPECTRUM INSTRUMENTATION
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株式会社エレクトロニカ IMT事業部

デジタイザとは?<オシロスコープとの比較>
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株式会社エレクトロニカ IMT事業部

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M4x AWG(高速任意波形発生器) M4x.66xx 16ビット、625MS/s, 1.25GS/s、1,2,4チャネル 1/2/4チャネル 出力電圧:±80mV~±2.5V (50Ω負荷)、±160mV~5V(1MΩ) チャネル毎に独立した16ビットDAおよびアンプ 全チャネル同期出力 入力オフセット及び振幅:プログラマブル制御可能 出力:FIFO、Streaming、シングルショット、ループ、ゲート出力、シーケンス出力 PCとの接続:PXIe Gen2 x4 2枚幅 製品名 分解能 出力チャネル サンプリングレート 帯域 M4x.6620-x8 16 1 625MS/s 200MHz M4x.6621-x8 16 2 625MS/s 200MHz M4x.6622-x8 16 4 625MS/s 200MHz M4x.6630-x8 16 1 1.25GS/s 400MHz M4x.6631-x8 16 2 1.25GS/s 400MHz
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M4x.66xx-x4 - 16 bit 1.25 GS/s Arbitrary Waveform Generator • Fast 16 bit arbitrary waveform generator • One, two or four channels • Versions with 1.25 GS/s and 625 MS/s • Ouput signal bandwidth up to 400 MHz • PXIe 3U format, 2 slots wide • Simultaneous signal generation on all channels • Output level ±80 mV to ±2.5 V (±2.0 V) into 50 Ω (±160 mV to ±5 V (±4 V) into high-impedance loads) • Fixed trigger to output delay • Huge 2 GSample on-board memory • FIFO mode continuous streaming output • Modes: Single-Shot, Loop, FIFO, Sequence Replay Mode, Gated, ... • PXIe x4 Gen 2 Interface • Works with all PXIe and PXI hybrid slots • Sustained streaming mode more than 1.4 GB/s** Operating Systems Recommended Software Drivers • Windows 7 (SP1), 8, 10 • Visual C++, C++ Builder, Delphi • MATLAB • Linux Kernel 2.6, 3.x, 4.x GNU C++, VB.NET, C#, J#, Java, • LabVIEW • Windows/Linux 32 and 64 bit Python • LabWindows/CVI • SBench 6 • IVI Model Bandwidth 1 channel 2 channels 4 channels General Information M4x.6630-x4 400 MHz 1.25 GS/s The M4x.66xx-x4 series arbitrary waveform digitizers deliver the high- M4x.6631-x4 400 MHz 1.25 GS/s 1.25 GS/s est performance in both speed and resolution. The series includes PCIe M4x.6620-x4 200 MHz 625 MS/s cards with either one, two or four synchronous channels. The large on- M4x.6621-x4 200 MHz 625 MS/s 625 MS/s board memory can be segmented to replay different waveform sequenc- M4x.6622-x4 200 MHz 625 MS/s 625 MS/s 625 MS/s es. The AWGs feature an interface with PCI Express x4 Gen 2 interface that offers outstanding data streaming performance. The interface and Spec- trum’s optimized drivers enable data transfer rates in excess of 1.4 GB/s so that signals can be continuously replayed at a high output rate. While the cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum wave- form generator cards. So, existing customers can use the same software they developed for a 10 year old 20 MS/s AWG card and for an M4x series 1.25 GS/s AWG. **Throughput measured with a motherboard chipset supporting a TLP size of 256 bytes.SPECTRUM INSTRUMENTATION GMBH · AHRENSFELDER WEG 13-17 · 22927 GROSSHANSDORF · GERMANY 26.2.2019 PHONE: +49 (0)4102-6956-0 · FAX: +49 (0)4102-6956-66 · E-MAIL: info@spec.de · INTERNET: www.spectrum-instrumentation.com
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Connections • The cards are equipped with SMA connectors for the Software Support analog signals as well as for the two external trigger inputs, and clock input and output. In addition, there Windows drivers are three MMCX connectors that are used for the The cards are delivered with drivers for Windows 7, Windows 8 three multi-function I/O connectors. These multi-func- and Windows 10 (32 bit and 64 bit). Programming examples for tion connectors can be individually programmed to Visual C++, C++ Builder, LabWindows/CVI, Delphi, Visual Basic, perform different functions: VB.NET, C#, J#, Python, Java and IVI are included. • Trigger output • Status output (armed, triggered, ready, ...) Linux Drivers • Synchronous digital inputs, being stored inside the analog data All cards are delivered with full Linux support. Pre com- samples piled kernel modules are included for the most common • Asynchronous I/O lines distributions like Fedora, Suse, Ubuntu LTS or Debian. The Linux support includes SMP systems, 32 bit and 64 bit Singleshot output systems, versatile programming examples for GNU C++, When singleshot output is activated the data of the on-board mem- Python as well as the possibility to get the driver sources for your ory is played exactly one time. The trigger source can be either one own compilation. of the external trigger inputs or the software trigger. After the first trigger additional trigger events will be ignored. SBench 6 A base license of Repeated output SBench 6, the easy- When the repeated output mode is used the data of the on-board to-use graphical oper- memory is played continuously for a programmed number of times ating software for or until a stop command is executed. The trigger source can be ei- Spectrum cards, is in- ther one of the external trigger inputs or the software trigger. After cluded in the deliv- the first trigger additional trigger events will be ignored. ery. The base license makes it is possible to Single Restart replay test the card, gener- When this mode is activated the data of the on-board memory will ate simple signals or be replayed once after each trigger event. The trigger source can load and replay pre- be either the external TTL trigger or software trigger. viously stored SBench 6 signals. It's a valu- FIFO mode able tool for checking the cards perfor- The FIFO mode is designed for continuous data transfer between mance and assisting PC memory or hard disk and the generation board. The control of with the units initial setup. The cards also come with a demo license the data stream is done automatically by the driver on an interrupt for the SBench6 professional version. This license gives the user the request basis. The complete installed on-board memory is used for opportunity to test the additional features of the professional version buffering data, making the continuous streaming extremely reliable. with their hardware. The professional version contains several ad- vanced measurement functions, such as FFTs and X/Y display, im- Multiple Replay port and export utilities as well as support for all replay modes The Multiple Replay mode al- including data streaming. Data streaming allows the cards to con- lows the fast output genera- tinuously replay data and transfer it directly from the PC RAM or tion on several trigger events hard disk. SBench 6 has been optimized to handle data files of sev- without restarting the hard- eral GBytes. SBench 6 runs under Windows as well as Linux (KDE ware. With this option very and GNOME) operating systems. A test version of SBench 6 can fast repetition rates can be be downloaded directly over the internet and can run the profes- achieved. The on-board memory is divided into several segments of sional version in a simulation mode without any hardware installed. the same size. Each segment can contain different data which will Existing customers can also request a demo license for the profes- then be played with the occurrence of each trigger event. sional version from Spectrum. More details on SBench 6 can be found in the SBench 6 data sheet. Gated Replay The Gated Sampling mode al- Third-party products lows data replay controlled Spectrum supports the most popular third-party software products by an external gate signal. such as LabVIEW, MATLAB or LabWindows/CVI. All drivers come Data is only replayed if the with detailed documentation and working examples are included in gate signal has attained a the delivery. Support for other software packages, like VEE or Da- programmed level. syLab, can also be provided on request. Sequence Mode Hardware features and options The sequence mode allows to PXI Express x4 split the card memory into sev- The M4x series PXI Express cards use a PCI Express eral data segments of different length. These data segments are x4 Gen 2 connection. They can be used in every PXI chained up in a user chosen order using an additional sequence Express (PXIe) slot, as well as in any PXI hybrid slot memory. In this sequence memory the number of loops for each seg- with Gen 1, Gen 2 or Gen 3. The maximum sustained ment can be programmed and trigger conditions can be defined to data transfer rate is more than 1.7 GByte/s (read di- proceed from segment to segment. Using the sequence mode it is rection) or 1.4 GByte/s (write direction) per slot. also possible to switch between replay waveforms by a simple soft-
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ware command or to redefine waveform data for segments simulta- neously while other segments are being replayed. All trigger- related and software-command-related functions are only working on single cards, not on star-hub-synchrnonized cards. External trigger input All boards can be triggered using up to two external analog or dig- ital signals. One external trigger input has two analog comparators that can define an edge or window trigger, a hysteresis trigger or a rearm trigger. The other input has one comparator that can be used for standard edge and level triggers. External clock input and output Using a dedicated connector a sampling clock can be fed in from an external system. Additionally it’s also possible to output the in- ternally used sampling clock on a separate connector to synchro- nize external equipment to this clock. Reference clock The option to use a precise external reference clock (normally 10 MHz) is nec- essary to synchronize the instrument for high-quality measurements with external equipment (like a signal source). It’s also possible to enhance the quality of the sampling clock in this way. The driver automatically generates the requested sampling clock from the fed in reference clock.
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Technical Data Analog Outputs Resolution 16 bit D/A Interpolation no interpolation Output amplitude M4i.663x (1.25 GS/s version) software programmable ±80 mV up to ±2 V in 1 mV steps into 50 Ω termination (resulting in ±160 mV up to ±4 V in 2mV steps into high impedance loads) Output amplitude M4i.662x (625 MS/s version) software programmable ±80 mV up to ±2.5 V in 1 mV steps into 50 Ω termination (resulting in ±160 mV up to ±5 V in 2mV steps into high impedance loads) Output offset fixed 0 V Output Amplifier Path Selection automatically by driver Low Power path: ±80 mV to ±480 mV (into 50 Ω) High Power path: ±420 mV to ±2.5 V/±2 V (into 50 Ω) Output Amplifier Setting Hysteresis automatically by driver 420 mV to 480 mV (if output is using low power path it will switch to high power path at 480 mV. If output is using high power path it will switch to low power path at 420 mV) Output amplifier path switching time 10 ms (output disabled while switching) Filters software programmable bypass with no filter or one fixed filter DAC Differential non linearity (DNL) DAC only ±0.5 LSB typical DAC Integral non linearity (INL) DAC only ±1.0 LSB typical Output resistance 50 Ω Minimum output load 0 Ω Max output swing in 50 Ω ± 2.5 V for 625 MS/s versions or ± 2 V for 1.25 GS/s version Output accuracy Low power path ±0.5 mV ±0.1% of programmed output amplitude High power path ±1.0 mV ±0.2% of programmed output amplitude Trigger Available trigger modes software programmable External, Software, Window, Re-Arm, Or/And, Delay, PXI (M4x only) Trigger edge software programmable Rising edge, falling edge or both edges Trigger delay software programmable 0 to (8GSamples - 32) = 8589934560 Samples in steps of 32 samples Multi, Gate: re-arming time 40 samples Trigger to Output Delay sample rate ≤ 625 MS/s 238.5 sample clocks + 16 ns sample rate > 625 MS/s 476.5 sample clocks + 16 ns Memory depth software programmable 32 up to [installed memory / number of active channels] samples in steps of 32 Multiple Replay segment size software programmable 16 up to [installed memory / 2 / active channels] samples in steps of 16 Trigger accuracy (all sources) 1 sample Minimum external trigger pulse width ≥ 2 samples External trigger Ext0 Ext1 External trigger impedance software programmable 50 Ω /1 kΩ 1 kΩ External trigger coupling software programmable AC or DC fixed DC External trigger type Window comparator Single level comparator External input level ±10 V (1 kΩ), ±2.5 V (50 Ω), ±10 V External trigger sensitivity 2.5% of full scale range 2.5% of full scale range = 0.5 V (minimum required signal swing) External trigger level software programmable ±10 V in steps of 1 mV ±10 V in steps of 1 mV External trigger maximum voltage ±30V ±30 V External trigger bandwidth DC 50 Ω DC to 200 MHz n.a. 1 kΩ DC to 150 MHz DC to 200 MHz External trigger bandwidth AC 50 Ω 20 kHz to 200 MHz n.a. Minimum external trigger pulse width ≥ 2 samples ≥ 2 samples Clock Clock Modes software programmable internal PLL, external reference clock, Star-Hub sync (M4i only), PXI Reference Clock (M4x only) Internal clock accuracy ≤ ±20 ppm Internal clock setup granularity 8 Hz (internal reference clock only, restrictions apply to external reference clock) Setable Clock speeds 50 MHz to max sampling clock Clock Setting Gaps 750 to 757 MHz, 1125 to 1145 MHz (no sampling clock possible in these gaps) External reference clock range software programmable ≥ 10 MHz and ≤ 1.25 GHz External reference clock input impedance 50 Ω fixed External reference clock input coupling AC coupling External reference clock input edge Rising edge External reference clock input type Single-ended, sine wave or square wave External reference clock input swing 0.3 V peak-peak up to 3.0 V peak-peak External reference clock input max DC voltage ±30 V (with max 3.0 V difference between low and high level) External reference clock input duty cycle requirement 45% to 55% External reference clock output type Single-ended, 3.3V LVPECL Clock output sampling clock ≤71.68 MHz Clock output = sampling clock/4 Clock output sampling clock >71.68 MHz Clock output = sampling clock/8 Star-Hub synchronization clock modes software selectable Internal clock, external reference clock
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Sequence Replay Mode (Mode available starting with firmware V1.14) Number of sequence steps software programmable 1 up to 4096 (sequence steps can be overloaded at runtime) Number of memory segments software programmable 2 up to 64k (segment data can be overloaded at runtime) Loop Count software programmable 1 to (1M - 1) loops Sequence Step Commands software programmable Loop for #Loops, Next, Loop until Trigger, End Sequence Special Commands software programmable Data Overload at runtime, sequence steps overload at runtime, readout current replayed sequence step Limitations for synchronized products Software commands changing the sequence as well as „Loop until trigger“ are not synchronized between cards. This also applies to multiple AWG modules in a generatorNETBOX. Multi Purpose I/O lines (front-plate) Number of multi purpose lines three, named X0, X1, X2 Input: available signal types software programmable Asynchronous Digital-In Input: impedance 10 kΩ to 3.3 V Input: maximum voltage level -0.5 V to +4.0 V Input: signal levels 3.3 V LVTTL Output: available signal types software programmable Asynchronous Digital-Out, Synchronous Digital-Out, Trigger Output, Run, Arm, Marker Output, System Clock Output: impedance 50 Ω Output: signal levels 3.3 V LVTTL Output: type 3.3V LVTTL, TTL compatible for high impedance loads Output: drive strength Capable of driving 50 Ω loads, maximum drive strength ±48 mA Output: update rate sampling clock Bandwidth and Slewrate Filter Output Amplitude M4i.6630-x8 M4i.6620-x8 M4i.6631-x8 M4i.6621-x8 DN2.663-xx M4i.6622-x8 DN2.662-xx Maximum Output Rate 1.25 GS/s 625 MS/s -3d Bandwidth no Filter ±480 mV 400 MHz 200 MHz -3d Bandwidth no Filter ±1000 mV 320 MHz 200 MHz -3d Bandwidth no Filter ±2000 mV 320 MHz 200 MHz -3d Bandwidth Filter all 65 MHz 65 MHz Slewrate no Filter ±480 mV 4.5 V/ns 2.25 V/ns Dynamic Parameters M4i.6620-x8 M4i.6621-x8 M4i.6622-x8 DN2.662-xx Test - Samplerate 625 MS/s 625 MS/s 625 MS/s Output Frequency 10 MHz 50 MHz 50 MHz Output Level in 50 Ω ±480 mV ±1000mV ±2500mV ±480 mV ±2500mV ±480 mV ±2500mV Used Filter none none Filter enabled NSD (typ) -150 dBm/Hz -149 dBm/Hz -149 dBm/Hz -150 dBm/Hz -149 dBm/Hz -150 dBm/Hz -149 dBm/Hz SNR (typ) 70.7 dB 72.4 dB 63.1 dB 65.3 dB 64.4 dB 67.5 dB 69.4 dB THD (typ) -73.3 dB -70.5 dB -49.7 dB -64.1 dB -39.1 dB -68.4 dB -50.4 dB SINAD (typ) 69.0 dB 67.7 dB 49.5 dB 61.6 dB 39.1 dB 64.9 dB 50.3 dB SFDR (typ), excl harm. 98 dB 98 dB 99 dB 86 dB 76 dB 88 dB 89 dB ENOB (SINAD) 11.2 11.0 8.0 10.0 6.2 10.5 8.1 ENOB (SNR) 11.5 11.7 10.2 10.5 10.4 10.9 11.2 M4i.6630-x8 M4i.6631-x8 DN2.663-xx Test - Samplerate 1.25 GS/s 1.25 GS/s 1.25 GS/s Output Frequency 10 MHz 50 MHz 50 MHz Output Level in 50 Ω ±480 mV ±1000mV ±2000mV ±480 mV ±2000mV ±480 mV ±2000mV Used Filter none none Filter enabled NSD (typ) -150 dBm/Hz -149 dBm/Hz -149 dBm/Hz -150 dBm/Hz -149 dBm/Hz -150 dBm/Hz -149 dBm/Hz SNR (typ) 70.5 dB 72.1 dB 71.4 dB 65.2 dB 65.0 dB 67.2 dB 68.2 dB THD (typ) -74.5 dB -73.5 dB -59.1 dB -60.9 dB -43.9 dB -67.9 dB -63.1 dB SINAD (typ) 69.3 dB 69.7 dB 59 dB 59.5 dB 43.9 dB 64.5 dB 61.9 dB SFDR (typ), excl harm. 96 dB 97 dB 98 dB 85 dB 84 dB 87 dB 87 dB ENOB (SINAD) 11.2 11.2 9.5 9.6 6.9 10.4 10.0 ENOB (SNR) 11.5 11.5 11.5 10.5 10.5 10.9 11.0 T HD and SFDR are measured at the given output level and 50 Ohm termination with a high resolution M3i.4860/M4i.4450-x8 data acquisition card and are calculated from the spec- trum. Noise Spectral Density is measured with built-in calculation from an HP E4401B Spectrum Analyzer. All available D/A channels are activated for the tests. SNR and SFDR figures may differ depending on the quality of the used PC. NSD = Noise Spectral Density, THD = Total Harmonic Distortion, SFDR = Spurious Free Dynamic Range.
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SFDR and THD versus signal frequency • Measurements done with a spectrum analyzer bandwidth of 1.5 GHz • Please note that the bandwidth of the high range output is limited to 320 MHz • Please note that the output bandwidth limit also affects the THD as harmonics higher than the bandwidth are filtered Connectors Analog Inputs/Analog Outputs SMA female (one for each single-ended input) Cable-Type: Cab-3mA-xx-xx Trigger 0 Input SMA female Cable-Type: Cab-3mA-xx-xx Clock Input SMA female Cable-Type: Cab-3mA-xx-xx Trigger 1 Input SMA female Cable-Type: Cab-3mA-xx-xx Clock Output SMA female Cable-Type: Cab-3mA-xx-xx Multi Purpose I/O MMCX female (3 lines) Cable-Type: Cab-1m-xx-xx Environmental and Physical Details Dimension (Single Card) (PCB only) 160 mm x 100 mm (Standard 3U) Width 2 slots Weight (M4x.44xx series) maximum 340 g Weight (M4x.22xx, M4x.66xx series) maximum 450 g Warm up time 10 minutes Operating temperature 0°C to 50°C Storage temperature -10°C to 70°C Humidity 10% to 90% PXI Express specific details PXIe slot type 4 Lanes, PCIe Gen 2 (x4 Gen2) PXIe hybrid slot compatibility Fully compatible Sustained streaming mode > 1.7 GB/s (measured with a chipset supporting a TLP size of 256 bytes, using PXIe x4 Gen2) (Card-to-System: M4x.22xx, M4x.44xx) Sustained streaming mode > 1.4 GB/s (measured with a chipset supporting a TLP size of 256 bytes, using PXIe x4 Gen2) (System-to-Card: M4x.66xx) Certification, Compliance, Warranty EMC Immunity Compliant with CE Mark EMC Emission Compliant with CE Mark Product warranty 5 years starting with the day of delivery Software and firmware updates Life-time, free of charge
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Power Consumption PCI EXPRESS 3.3V 12 V Total M4x.6620-x4 Typical values: All channels activated, Sample rate: 625 MSps 0.25 A 2.5 A 31 W M4x.6621-x4 Output signal: 31.25 MHz sine wave, Output level: +/- 1 V into 50 Ω load 0.25 A 2.7 A 33 W M4x.6622-x4 0.25 A 3.0 A 36 W M4x.6620-x4 Typical values: All channels activated, Sample rate: 625 MSps 0.25 A 2.6 A 32 W M4x.6621-x4 Output signal: 31.25 MHz sine wave, Output level: +/- 2.5 V into 50 Ω load 0.25 A 2.9 A 35 W M4x.6622-x4 0.25 A 3.3 A 40 W M4x.6630-x4 Typical values: All channels activated, Sample rate: 1.25 GSps 0.25 A 2.7 A 33 W M4x.6631-x4 Output signal: 31.25 MHz sine wave, Output level: +/- 1 V into 50 Ω load 0.25 A 3.0 A 36 W M4x.6630-x4 Typical values: All channels activated, Sample rate: 1.25 GSps 0.25 A 2.9 A 35 W M4x.6631-x4 Output signal: 31.25 MHz sine wave, Output level: +/- 2.0 V into 50 Ω load 0.25 A 3.3 A 40 W MTBF MTBF 100000 hours Hardware block diagram
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Order Information The card is delivered with 2 GSample on-board memory and supports standard replay, FIFO replay (streaming), Multiple Replay, Gated Replay, Continuous Replay (Loop), Single-Restart as well as Sequence. Operating system drivers for Windows/Linux 32 bit and 64 bit, ex- amples for C/C++, LabVIEW (Windows), MATLAB (Windows and Linux), LabWindows/CVI, IVI, .NET, Delphi, Java, Python and a Base license of the measurement software SBench 6 are included. Adapter cables are not included. Please order separately! PXI Express x4 Order no. Bandwidth Standard mem 1 channel 2 channels 4 channels M4x.6620-x4 200 MHz 2 GSample 625 MS/s M4x.6621-x4 200 MHz 2 GSample 625 MS/s 625 MS/s M4x.6622-x4 200 MHz 2 GSample 625 MS/s 625 MS/s 625 MS/s M4x.6630-x4 400 MHz 2 GSample 1.25 GS/s M4x.6631-x4 400 MHz 2 GSample 1.25 GS/s 1.25 GS/s Options Order no. Option M4i.663x-hbw High bandwidth option 600 MHz. Output level limited to ±480 mV into 50 Ω. Needs external recon- struction filter. One option needed per AWG card. Services Order no. Recal Recalibration at Spectrum incl. calibration protocol Standard Cables Order no. for Connections Length to BNC male to BNC female to SMA male to SMA female to SMB female Analog/Clock-In/Trig-In 80 cm Cab-3mA-9m-80 Cab-3mA-9f-80 Analog/Clock-In/Trig-In 200 cm Cab-3mA-9m-200 Cab-3mA-9f-200 Probes (short) 5 cm Cab-3mA-9f-5 Clk-Out/Trig-Out/Extra 80 cm Cab-1m-9m-80 Cab-1m-9f-80 Cab-1m-3mA-80 Cab-1m-3fA-80 Cab-1m-3f-80 Clk-Out/Trig-Out/Extra 200 cm Cab-1m-9m-200 Cab-1m-9f200 Cab-1m-3mA-200 Cab-1m-3fA-200 Cab-1m-3f-200 Information The standard adapter cables are based on RG174 cables and have a nominal attenuation of 0.3 dB/m at 100 MHz and 0.5 dB/m at 250 MHz. For high speed signals we recommend the low loss cables series CHF Low Loss Cables Order No. Option CHF-3mA-3mA-200 Low loss cables SMA male to SMA male 200 cm CHF-3mA-9m-200 Low loss cables SMA male to BNC male 200 cm Information The low loss adapter cables are based on MF141 cables and have an attenuation of 0.3 dB/m at 500 MHz and 0.5 dB/m at 1.5 GHz. They are recommended for signal frequencies of 200 MHz and above. Software SBench6 Order no. SBench6 Base version included in delivery. Supports standard mode for one card. SBench6-Pro Professional version for one card: FIFO mode, export/import, calculation functions SBench6-Multi Option multiple cards: Needs SBench6-Pro. Handles multiple synchronized cards in one system. Volume Licenses Please ask Spectrum for details. Software Options Order no. SPc-RServer Remote Server Software Package - LAN remote access for M2i/M3i/M4i/M4x/M2p cards SPc-SCAPP Spectrum’s CUDA Access for Parallel Processing - SDK for direct data transfer between Spectrum card and CUDA GPU. Includes RDMA activation and examples. Signed NDA needed for access. (1) : Just one of the options can be installed on a card at a time. (2) : Third party product with warranty differing from our export conditions. No volume rebate possible. Technical changes and printing errors possible SBench, digitizerNETBOX and generatorNETBOX are registered trademarks of Spectrum Instrumentation GmbH. Microsoft, Visual C++, Windows, Windows 98, Windows NT, Window 2000, Windows XP, Windows Vista, Windows 7, Windows 8 and Windows 10 are trademarks/registered trademarks of Microsoft Corporation. LabVIEW, DASYLab, Diadem and LabWindows/CVI are trademarks/registered trademarks of National Instruments Corporation. MATLAB is a trademark/registered trademark of The Mathworks, Inc. Delphi and C++Builder are trademarks/registered trademarks of Embarcadero Technologies, Inc. Keysight VEE, VEE Pro and VEE OneLab are trademarks/registered trademarks of Keysight Technologies, Inc. FlexPro is a registered trademark of Weisang GmbH & Co. KG. PCIe, PCI Express and PCI-X and PCI-SIG are trademarks of PCI-SIG. LXI is a registered trademark of the LXI Consortium. PICMG and CompactPCI are trademarks of the PCI Industrial Computation Manufacturers Group. Oracle and Java are registered trademarks of Oracle and/or its affiliates. Intel and Intel Xeon are trademarks or registered trademarks of Intel Corporation. AMD and Opteron are trademarks or registered trademarks of Advanced Micro Devices. NVIDIA, CUDA, GeForce, Quadro and Tesla are trademarks/registered trademarks of NVIDIA Corporation.