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M2i高速デジタイザ

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M2i.20xx 8ビット、50MS/s~200MS/s、1~4チャネル

2/4チャネル
入力抵抗  50Ω/1MΩ
チャネル毎に独立した8ビットADおよびアンプ
全チャネル同時サンプリング
7入力レンジ:±50mV~±5 V 入力オフセット:±400%
トリガ:ウィンドウ、パルス幅、OR/AND
測定モード:マルチレコード、ABA
PCとの接続:PCIe

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ドキュメント名 M2i高速デジタイザ
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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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M2i高速デジタイザ M2i.20xx 8ビット、50MS/s~200MS/s、1~4チャネル 2/4チャネル 入力抵抗 50Ω/1MΩ チャネル毎に独立した8ビットADおよびアンプ 全チャネル同時サンプリング 7入力レンジ:±50mV~±5 V 入力オフセット:±400% トリガ:ウィンドウ、パルス幅、OR/AND 測定モード:マルチレコード、ABA PCとの接続:PCIe 製品名 分解能 入力チャネル サンプリングレート 帯域 M2i.2020-exp 8 2 50MS/s M2i.2021-exp 8 4 50MS/s M2i.2030-exp 8 2 200MS/s(1チャネル) 100MS/ss(2チャネル) M2i.2031-exp 8 4 200MS/ss(1チャネル) 100MS/ss(2チャネル)
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M2i.20xx - 8 bit transient recorder up to 200 MS/s • Up to 200 MS/s on 2 channels, 100 MS/s on 4 channels • Simultaneously sampling on all channels • Separate ADC and amplifier per channel • 7 input ranges: ±50 mV up to ± 5 V • Up to 2 GSample on-board memory • 512 MSample standard memory installed • Window, pulse width, re-arm, OR/AND trigger • Programmable input offset of ±400% • Synchronization of up to 16 cards per system and up to 271 cards with system sync • ABA mode: combination of data logger and fast digitizer on trigger • Versatile software support for Windows and Linux • 66 MHz 32 bit PCI-X interface • 2,5 GBit x1 PCIe Interface • 5V / 3.3V PCI compatible • Works with x1/x4/x8/x16* PCIe slots • 100% compatible to conventional PCI > V2.1 • Software compatible to PCI • Sustained streaming mode up to 245 MB/s • Sustained streaming mode up to 160 MB/s Operating Systems Recommended Software Drivers and Examples • Windows 7 (SP1), 8, 10 • SBench 6 • C/C++, GNU C++ • Linux Kernel 2.4, 2.6, 3.x, 4.x • MATLAB • Delphi, .VB.NET, C#, J# • Windows/Linux 32 and 64 bit • LabVIEW, LabWindows/CVI • Python, Java, IVI Model 1 channel 2 channels 4 channels General Information M2i.2020 50 MS/s 50 MS/s The cards of the M2i.20xx series are designed for the fast and high quality data ac- M2i.2021 50 MS/s 50 MS/s 50 MS/s quisition. Each of the up to four input channels has its own A/D converter and its own M2i.2030 200 MS/s 100 MS/s programmable input amplifier. This allows to record signals on all channels with 8 bit M2i.2031 200 MS/s 200 MS/s 100 MS/s resolution without any phase delay between them. The inputs can be selected to one of seven input ranges by software and can be programmed to compensate for an in- put offset of ±400% of the input range. The extremely large on-board memory allows long time recording even with highest sampling rates. All four cards of the M2i.20xx series may use the whole installed on-board memory completely for the currently acti- vated number of channels. A FIFO mode is also integrated on the board. This allows the acquisition of data continuously for online processing in the PC or for data storage on hard disk. *Some x16 PCIe slots are for the use of graphic cards only and can not be used for other cards. 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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Software Support PCI Express The cards with PCI Express use a x1 Windows drivers PCIe connector. They can be used in The cards are delivered with drivers for Windows 7, Windows 8 PCI Express x1/x4/x8/x16 slots, ex- and Windows 10 (32 bit and 64 bit). Programming examples for cept special graphic card slots, and Visual C++, C++ Builder, LabWindows/CVI, Delphi, Visual Basic, are 100% software compatible to VB.NET, C#, J#, Python, Java and IVI are included. Conventional PCI > V2.1. The maxi- mum sustained data transfer rate is Linux Drivers 160 MByte/s per slot. All cards are delivered with full Linux support. Pre com- piled kernel modules are included for the most common Input Amplifier distributions like Fedora, Suse, Ubuntu LTS or Debian. The The analog inputs can be adapt- Linux support includes SMP systems, 32 bit and 64 bit ed to real world signals using a systems, versatile programming examples for GNU C++, wide variety of settings that are Python as well as the possibility to get the driver sources for your individual for each channel. By own compilation. using software commands the in- put termination can be changed between 50 Ohm and 1 MOhm, one can select a matching input SBench 6 range and the signal offset can be compensated for. A base license of SBench 6, the easy-to-use graphical operating Ring buffer mode software for Spectrum cards, is in- cluded in the delivery. The base li- The ring buffer mode is the cense makes it is possible to test standard mode of all oscillo- the card, display acquired data scope instruments. Digitized and make some basic measure- data is continuously written ments. It's a valuable tool for into a ring memory until a checking the card’s performance trigger event is detected. After the trigger, post-trigger samples are and assisting with the unit’s initial recorded and pre-trigger samples can also be stored. The number setup. The cards also come with a demo license for the SBench 6 of pre-trigger samples available simply equals the total ring mem- professional version. This license gives the user the opportunity to ory size minus the number of post trigger samples. test the additional features of the professional version with their hardware. The professional version contains several advanced FIFO mode measurement functions, such as FFTs and X/Y display, import and The FIFO mode is designed for continuous data transfer between export utilities as well as support for all acquisition modes including measurement board and PC memory (up to 245 MB/s on a PCI-X data streaming. Data streaming allows the cards to continuously ac- slot, up to 125 MB/s on a PCI slot and up to 160 MB/s on a PCIe quire data and transfer it directly to the PC RAM or hard disk. slot) or hard disk. The control of the data stream is done automati- SBench 6 has been optimized to handle data files of several cally by the driver on interrupt request. The complete installed on- GBytes. SBench 6 runs under Windows as well as Linux (KDE, board memory is used for buffer data, making the continuous GNOME and Unity) operating systems. A test version of SBench 6 streaming extremely reliable. can be downloaded directly over the internet and can run the pro- fessional version in a simulation mode without any hardware in- Channel trigger stalled. Existing customers can also request a demo license for the The data acquisition instruments offer a wide variety of trigger professional version from Spectrum. More details on SBench 6 can modes. Besides the standard signal checking for level and edge as be found in the SBench 6 data sheet. known from oscilloscopes it’s also possible to define a window trig- ger. All trigger modes can be combined with the pulsewidth trigger. Third-party products This makes it possible to trigger on signal errors like too long or too Spectrum supports the most popular third-party software products short pulses. In addition to this a re-arming mode (for accurate trig- such as LabVIEW, MATLAB or LabWindows/CVI. All drivers come ger recognition on noisy signals) the AND/OR conjunction of dif- with detailed documentation and working examples are included in ferent trigger events is possible. As a unique feature it is possible to the delivery. Support for other software packages, like VEE or Da- use deactivated channels as trigger sources. syLab, can also be provided on request. External trigger I/O Hardware features and options All instruments can be triggered using an external TTL signal. It’s possible to use positive or negative edge also in combination with PCI/PCI-X a programmable pulse width. An internally recognised trigger event can - when activated by software - be routed to the trigger The cards with PCI/PCI-X bus connector to start external instruments. connector use 32 Bit and up to 66 MHz clock rate for data trans- fer. They are 100% compatible Pulse width to Conventional PCI > V2.1. The Defines the minimum or maximum width that a trigger pulse must universal interface allows the use have to generate a trigger event. Pulse width can be combined with in PCI slots with 5 V I/O and 3.3 channel trigger, pattern trigger and external trigger. V I/O voltages as well as in PCI- X or PCI 64 slots. The maximum sustained data transfer rate is 245 MByte/s per bus segment.
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Multiple Recording Star-Hub The Multiple Recording The star-hub is an additional mode allows the recording of module allowing the phase sta- several trigger events with an ble synchronisation of up to 16 extremely short re-arming boards in one system. Indepen- time. The hardware doesn’t dent of the number of boards need to be restarted in be- there is no phase delay be- tween. The on-board memory is divided in several segments of the tween all channels. The star- same size. Each of them is filled with data if a trigger event occurs. hub distributes trigger and Pre- and posttrigger of the segments can be programmed. The num- clock information between all boards. As a result all connected ber of acquired segments is only limited by the used memory and boards are running with the same clock and the same trigger. All is unlimited when using FIFO mode. trigger sources can be combined with OR/AND allowing all chan- nels of all cards to be trigger source at the same time. The star-hub Gated Sampling is available as 5 card and 16 card version. The 5 card version The Gated Sampling mode doesn’t need an extra slot. allows data recording con- trolled by an external gate signal. Data is only record- 271 synchronous cards with theSystem Star-Hub ed if the gate signal has a With the help programmed level. In addi- of multiple sys- tion a pre-area before start tem star-hubs it of the gate signal as well as a post area after end of the gate signal is possible to can be acquired. The number of gate segments is only limited by link up to 17 the used memory and is unlimited when using FIFO mode. system phase synchronous Timestamp with each oth- The timestamp function er. Each system can then contain up to 16 cards (master only 15). writes the time positions of In total 271 cards can be used fully synchronously in a bunch of the trigger events in an extra systems. One master system distributes clock and trigger signal to memory. The timestamps are all connected slave systems. relative to the start of record- ing, a defined zero time, ex- BaseXIO (Asynchronous I/O, enhanced trigger) ternally synchronized to a radio clock, an IRIG-B a GPS receiver. The BaseXIO option offers 8 asynchro- Using the external synchronization gives a precise time relation for nous digital I/O lines on the base card. acquisitions of systems on different locations. The direction can be selected by software in groups of four. This allows e.g. exter- ABA mode nal equipment control or status monitor- The ABA mode com- ing. Two of these lines can also be used as additional external bines slow continuous trigger sources. This allows the building of complex trigger conjunc- data recording with fast tions with external gated triggers as well as AND/OR conjunction acquisition on trigger of multiple external trigger sources like, for example, the picture events. The ABA mode and row synchronisation of video signals. In addition one of the works like a slow data I/O lines can be used as reference clock for the Timestamp counter. logger combined with a fast digitizer. The exact External Amplifiers position of the trigger events is stored as timestamps in an extra For the acquisition of extreme- memory. ly small voltage levels with a high bandwidth a series of ex- External clock I/O ternal amplifiers is available. Using a dedicated connector a sampling clock can be fed in from Each of the one channel am- an external system. It’s also possible to output the internally used plifiers is working with a fixed sampling clock to synchronise external equipment to this clock. input impedance and allows - depending on the bandwidth Reference clock - to select different amplifica-tion levels between x10 (20 The option to use a precise dB) up to x1000 (60 dB). Us- external reference clock ing the external amplifiers of the SPA series voltage levels in the uV (typically 10 MHz) is nec- and mV area can be acquired. essary to synchronize the instrument for high-quality measurements with external equipment (like a signal source). It’s also possible to enhance the stability 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 Inputs Resolution 8 bit Input Range software programmable ±50 mV, ±100 mV, ±200 mV, ±500 mV, ±1 V, ±2 V, ±5 V Input Mode fixed bipolar, single-ended Input Offset software programmable ±400% of input range in steps of 1% ADC Differential non linearity (DNL) ADC only ±0.5 LSB ADC Integral non linearity (INL) ADC only ±0.5 LSB Offset error (full speed) after warm-up and calibration ≤ 0.1% of range Gain error (full speed) after warm-up and calibration ≤ 2% Crosstalk: 1 MHz Signal, 50 Ω termination all input ranges ≤ -62 dB on adjacent channels Analog input impedance software programmable 50 Ω or 1 MΩ || 25 pF Analog input coupling fixed DC Over voltage protection (active card) ranges ≤ ±500 mV ±5 V Over voltage protection (active card) ranges > ±500 mV ±50 V Input signal with 50 Ω termination max 5 V rms Channel selection software programmable 1, 2 or 4 (maximum is model dependent) Trigger Available trigger modes software programmable Channel Trigger, External, Software, Window, Pulse, Re-Arm, Or/And, Delay Trigger level resolution software programmable 8 bit Trigger edge software programmable Rising edge, falling edge or both edges Trigger pulse width software programmable 0 to [64k - 1] samples in steps of 1 sample Trigger delay software programmable 0 to [64k - 1] samples in steps of 1 sample Multi, Gate: re-arming time < 4 samples (+ programmed pretrigger) Pretrigger at Multi, ABA, Gate, FIFO software programmable 8 up to [16352 Samples / number of active channels] in steps of 8 Posttrigger software programmable 4 up to [8G - 4] samples in steps of 4 (defining pretrigger in standard scope mode) Memory depth software programmable 8 up to [installed memory / number of active channels] samples in steps of 4 Multiple Recording/ABA segment size software programmable 8 up to [installed memory / 2 / active channels] samples in steps of 4 Trigger output delay One positive edge after internal trigger event Internal/External trigger accuracy ≤ 100 MS/s 1 sample Internal/External trigger accuracy > 100 MS/s 2 samples External trigger type (input and output) 3.3V LVTTL compatible (5V tolerant with base card hardware version > V20) External trigger input Low ≤ 0.8 V, High ≥ 2.0 V, ≥ 8 ns in pulse stretch mode, ≥ 2 clock periods all other modes External trigger maximum voltage -0.5 V up to +5.7 V (internally clamped to 5.0V, 100 mA max. clamping current) Trigger impedance software programmable 50 Ohm / high impedance (> 4kOhm) External trigger output type 3.3 V LVTTL External trigger output levels Low ≤ 0.4 V, High ≥ 2.4 V, TTL compatible External trigger output drive strength Capable of driving 50 ohm load, maximum drive strength ±128 mA Clock Clock Modes software programmable internal PLL, internal quartz, external clock, external divided, external reference clock, sync Internal clock range (PLL mode) software programmable 1 kS/s to max using internal reference, 50kS/s to max using external reference clock Internal clock accuracy ≤ 20 ppm Internal clock setup granularity ≤1% of range (100M, 10M, 1M, 100k,...): Examples: range 1M to 10M: stepsize ≤ 100k External reference clock range software programmable ≥ 1.0 MHz and ≤ 125.0 MHz External clock impedance software programmable 50 Ohm / high impedance (> 4kOhm) External clock range see „Dynamic Parameters“ table below External clock delay to internal clock 5.4 ns External clock type/edge 3.3V LVTTL compatible, rising edge used External clock input Low level ≤ 0.8 V, High level ≥ 2.0 V, duty cycle: 45% - 55% External clock maximum voltage -0.5 V up to +3.8 V (internally clamped to 3.3V, 100 mA max. clamping current) (not 5V tolerant) External clock output type 3.3 V LVTTL External clock output levels Low ≤ 0.4 V, High ≥ 2.4 V, TTL compatible External clock output drive strength Capable of driving 50 ohm load, maximum drive strength ±128 mA Synchronization clock divider software programmable 2 up to [8k - 2] in steps of 2 ABA mode clock divider for slow clock software programmable 8 up to 524280 in steps of 8 BaseXIO Option BaseXIO modes software programmable Asynch digital I/O, 2 additional trigger, timestamp reference clock, timestamp digital inputs BaseXIO direction software programmable Each 4 lines can be programmed in direction BaseXIO input TTL compatible: Low ≤ 0.8 V, High ≥ 2.0 V BaseXIO input impedance 4.7 kOhm towards 3.3 V BaseXIO input maximum voltage -0.5 V up to +5.5 V BaseXIO output type 3.3 V LVTLL BaseXIO output levels TTL compatible: Low ≤ 0.4 V, High ≥ 2.4 V BaseXIO output drive strength 32 mA maximum current, no 50 Ω loads
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Connectors Analog Inputs 3 mm SMB male (one for each single-ended input) Cable-Type: Cab-3f-xx-xx Trigger Input/Output programmable direction 3 mm SMB male (one connector) Cable-Type: Cab-3f-xx-xx Clock Input/Output programmable direction 3 mm SMB male (one connector) Cable-Type: Cab-3f-xx-xx Option Digital Inputs/Outputs 40 pole half pitch (Hirose FX2 series) Cable-Type: Cab-d40-xx-xx Option BaseXIO 8 x 3 mm SMB male on extra bracket, internally 8 x MMCX female Environmental and Physical Details Dimension (PCB only) 312 mm x 107 mm (full PCI length) Width (Standard or with option star-hub 5) 1 full size slot Width (star-hub 16) additionally back of adjacent neighbour slots Width (with option BaseXIO) additionally extra bracket on neighbour slot Width (with option -digin, -digout or -60xx-AmpMod) additionally half length of adjacent neighbour slot Weight (depending on version) 290g (smallest version) up to 460g (biggest version with all options, including star-hub) Warm up time 10 minutes Operating temperature 0°C to 50°C Storage temperature -10°C to 70°C Humidity 10% to 90% PCI/PCI-X specific details PCI / PCI-X bus slot type 32 bit 33 MHz or 32 bit 66 MHz PCI / PCI-X bus slot compatibility 32/64 bit, 33-133 MHz, 3,3 V and 5 V I/O Sustained streaming mode > 245 MB/s (in a PCI-X slot clocked at 66 MHz or higher) PCI Express specific details PCIe slot type x1 Generation 1 PCIe slot compatibility x1/x4/x8/x16 (Some x16 PCIe slots are for graphic cards only and can not be used) Sustained streaming mode > 160 MB/s 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 Power Consumption PCI / PCI-X PCI EXPRESS 3.3 V 5 V Total 3.3V 12V Total M2i.20x0 (512 MSample memory) 2.2 A 0.5 A 9.8 W 0.4 A 1.0 A 13.3 W M2i.20x1 (512 MSample memory) 2.8 A 0.8 A 13.2 W 0.4 A 1.2 A 15.7 W M2i.2031 (4 GSample memory) max power 3.9 A 0.8 A 16.9 W 0.4 A 2.0 A 25.3 W MTBF MTBF 500000 hours Dynamic Parameters M2i.2020 M2i.2021 M2i.2030 M2i.2031 DN2.203-02 DN2.203-04 DN2.203-08 min internal clock 1kS/s 1kS/s 1kS/s 1kS/s max internal clock 50 MS/s 50 MS/s 200 MS/s 200 MS/s min external clock 1 MS/s 1 MS/s 1 MS/s 1 MS/s max external clock 50 MS/s 50 MS/s 100 MS/s 100 MS/s -3 dB bandwidth ±50 mV DC to 25 MHz DC to 25 MHz DC to 60 MHz DC to 60 MHz -3 dB bandwidth ±100 mV DC to 25 MHz DC to 25 MHz DC to 80 MHz DC to 80 MHz -3 dB bandwidth ≥ ±200 mV DC to 25 MHz DC to 25 MHz DC to 90 MHz DC to 90 MHz Zero noise level (≤ ±100 mV) ≤ 0,6 LSB ≤ 0,9 LSB ≤ 1,5 LSB ≤ 2.0 LSB Zero noise level (> ±100 mV) ≤ 0,6 LSB ≤ 0,7 LSB ≤ 1.3 LSB ≤ 1.5 LSB Test - sampling rate 50 MS/s 50 MS/s 100 MS/s 100 MS/s Test signal frequency 1 MHz 4 MHz 1 MHz 4 MHz 1 MHz 9 MHz 1 MHz 9 MHz SNR (typ) 47.5 dB 47.5 dB 46.8 dB 46.5 dB 45.3 dB 45.0 dB 45.0 dB 44.5 dB THD (typ) -56.0 dB -55.5 dB -56.0 dB -55.5 dB -51.5 dB -49.5 dB -49.5 dB -49.5 dB SFDR (typ), excl. harm. 61.3 dB 61.0 dB 60.3 dB 60.1 dB 59.0 dB 57.0 dB 59.0 dB 57.0 dB ENOB (based on SNR) 7.6 bit 7.6 bit 7.5 bit 7.4 bit 7.2 bit 7.2 bit 7.2 bit 7.2 bit ENOB (based on SINAD) 7.5 bit 7.5 bit 7.4 bit 7.3 bit 7.1 bit 7.0 bit 7.1 bit 7.0 bit Dynamic parameters are measured at ±1 V input range (if no other range is stated) and 50Ω termination with the samplerate specified in the table. Measured parameters are averaged 20 times to get typical values. Test signal is a pure sine wave generated by a signal generator and a matching bandpass filter. Amplitude is >99% of FSR. SNR and RMS noise parameters may differ depending on the quality of the used PC. SNR = Signal to Noise Ratio, THD = Total Harmonic Distortion, SFDR = Spurious Free Dynamic Range, SINAD = Signal Noise and Dis- tortion, ENOB = Effective Number of Bits.
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Hardware block diagramm
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Order Informations The card is delivered with 512 MSample on-board memory and supports standard acquisition (Scope), FIFO acquisition (streaming), Multiple Recording, Gated Sampling, ABA mode and Timestamps. Operating system drivers for Windows/Linux 32 bit and 64 bit, examples for C/C++, LabVIEW (Windows), MATLAB (Windows and Linux), LabWindows/CVI, IVI, .NET, Delphi, Java, Python and a Base license of the oscilloscope software SBench 6 are included. Drivers for other 3rd party products like VEE or DASYLab may be available on request. Adapter cables are not included. Please order separately! PCI Express (PCIe) PCI Express PCI/PCI-X Standard mem 1 channel 2 channels 4 channels PCI/PCI-X M2i.2020-exp M2i.2020 512 MByte 50 MS/s 50 MS/s M2i.2021-exp M2i.2021 512 MByte 50 MS/s 50 MS/s 50 MS/s M2i.2030-exp M2i.2030 512 MByte 200 MS/s 100 MS/s M2i.2031-exp M2i.2031 512 MByte 200 MS/s 200 MS/s 100 MS/s Memory Order no. Option M2i.xxxx-1GB Memory upgrade to 1 GB of total memory M2i.xxxx-2GB Memory upgrade to 2 GB of total memory Options Order no. Option M2i.xxxx-SH5 (1) Synchronization Star-Hub for up to 5 cards, only 1 slot width M2i.xxxx-SH16 (1) Synchronization Star-Hub for up to 16 cards M2i.xxxx-SSHM (1) System-Star-Hub Master for up to 15 cards in the system and up to 17 systems, PCI 32 Bit card, sync cables and extra bracket for clock and trigger distribution included M2i.xxxx-SSHMe (1) System-Star-Hub Master for up to 15 cards in the system and up to 17 systems, PCI Express card, sync cables and extra bracket for clock and trigger distribution included M2i.xxxx-SSHS5 (1) System-Star-Hub Slave for 5 cards in one system, one slot width all sync cables + bracket included M2i.xxxx-SSHS16 (1) System-Star-Hub Slave for 16 cards in system, two slots width, all sync cables + bracket included M2i.xxxx-bxio Option BaseXIO: 8 digital I/O lines usable as asynchronous I/O, timestamp ref-clock and additional external trigger lines, additional bracket with 8 SMB connectors M2i-upgrade Upgrade for M2i.xxxx: later installation of option -M2i.xxxx-2GB, -SH5, -SH16 or -bxio Services Order no. Recal Recalibration at Spectrum incl. calibration protocol Cables Order no. for Connections Length to BNC male to BNC female to SMA male to SMA female to SMB female Analog/Clock/Trigger 80 cm Cab-3f-9m-80 Cab-3f-9f-80 Cab-3f-3mA-80 Cab-3f-3fA-80 Cab-3f-3f-80 Analog/Clock/Trigger 200 cm Cab-3f-9m-200 Cab-3f-9f-200 Cab-3f-3mA-200 Cab-3f-3fA-200 Cab-3f-3f-200 Probes (short) 5 cm Cab-3f-9f-5 Information The standard adapter cables are based on RG174 cables and have a nominal attenuation of 0.3 dB/m at 100 MHz. Amplifiers Order no. Bandwidth Connection Input Impedance Coupling Amplification SPA.1412 (2) 200 MHz BNC 1 MOhm AC/DC x10/x100 (20/40 dB) SPA.1411 (2) 200 MHz BNC 50 Ohm AC/DC x10/x100 (20/40 dB) SPA.1232 (2) 10 MHz BNC 1 MOhm AC/DC x100/x1000 (40/60 dB) SPA.1231 (2) 10 MHz BNC 50 Ohm AC/DC x100/x1000 (40/60 dB) Information External Amplifiers with one channel, BNC/SMA female connections on input and output, manually adjustable offset, man- ually switchable settings. An external power supply for 100 to 240 VAC is included. Please be sure to order an adapter cable matching the amplifier connector type and matching the connector type for your A/D card input. 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 (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.