デジタイザNETBOX　DN6.59x 16ビット、5MS/s, 20MS/s, 40MS/ 80MSs, 125MS/s、24~48チャネル

digitizerNETBOX DN6.59x 16ﾋﾞｯﾄ、5MS/s, 20MS/s, 40MS/s, 80MS/s, 125MS/s、24～48ﾁｬﾈﾙ ・サンプリングレート: 5MS/s, 20MS/s, 40MS/s, 80MS/s, 125MS/s 24/32/40/48チャネル ・入力抵抗 1MΩ/50Ω ・チャネル毎に独立した16ビットADおよびアンプによる全チャネル同時サンプリング ・6入力レンジ：±200mV～±10 V ・トリガ：ウィンドウ、パルス幅、スパイク、OR/AND ・測定モード：シングルショット、Streaming、ABA、マルチレコード、ゲーティドレコード Time Stamp ・PCとの接続：イーサネット 製品名 分解能 入力チャネル サンプリングレート 帯域 DN6.59124 16 24 5MS/s 2.5MHz DN6.591-32 16 32 5MS/s 2.5MHz DN6.591-40 16 40 5MS/s 2.5MHz DN6.591-48 16 48 5Ms/s 2.5MHz DN6.592-24 16 24 20MS/s 10MHz DN6.592-32 16 32 20MS/s 10MHz DN6.592-40 16 40 20MS/s 10MHz DN6.592-48 16 48 20MS/s 20MHz DN2.593-24 16 24 40MS/s 20MHz DN2.593-32 16 32 40MS/s 20MHz DN2.593-40 16 40 40MS/s 60MHz DN2.593-48 16 48 40MS/s 60MHz

製品名 分解能 入力チャネル サンプリングレート 帯域 DN6.596-24 16 24 125MS/s（12チャネル） 60MHz 80MS/s（24チャネル） DN6.596-32 16 32 125MS/s（16チャネル） 60MHz 80MS/s（32チャネル） DN6.596-40 16 40 125MS/s（20チャネル） 60MHz 80MS/s（40チャネル） DN6.596-48 16 48 125MS/s（24チャネル） 60MHz 80MS/s（48チャネル）

DN6.59x - 48 channel 16 bit digitizerNETBOX up to 125 MS/s • 24, 32, 40 or 48 channels with 5 MS/s up to 125 MS/s Speed SNR ENOB • Software selectable single-ended or differential inputs 5 MS/s up to 86.0 dB up to 14.0 LSB20 MS/s up to 81.0 dB up to 13.2 LSB • Simultaneously sampling on all channels 40 MS/s up to 75.3 dB up to 12.2 LSB • Separate ADC and amplifier per channel 125 MS/s up to 73.3 dB up to 11.8 LSB • complete on-board calibration • 6 input ranges: ±200 mV up to ±10 V • 64 MSample/channel standard acquisition memory • Programmable input offset of ±100% • Window, pulse width, re-arm, spike, OR/AND trigger • Streaming, ABA mode, Multiple Recording, Gated Sam- pling, Timestamps • Ethernet Remote Instrument • Direct Connection to PC/Laptop • LXI Core 2011 compatible • Connect anywhere in company LAN • GBit Ethernet Interface • Embedded Webserver for Maintenance/Updates • Sustained streaming mode up to 70 MB/s • Embedded Server option for open Linux platform Operating Systems SBench 6 Professional Included Drivers • Windows 7 (SP1), 8, 10, • Acquisition, Generation and Display of analog and • LabVIEW, MATLAB, LabWindows/CVI Server 2008 R2 and newer digital data • Visual C++, C++ Builder, GNU C++, • Linux Kernel 2.6, 3.x, 4.x, 5.x • Calculation, FFT VB.NET, C#, J#, Delphi, Java, Python • Windows/Linux 32 and 64 bit • Documentation and Import, Export • IVI Model Single-Ended Inputs Differential Inputs General Information DN6.591-24 24 channels 5 MS/s 12 channels 5 MS/s The digitizerNETBOX DN6.59x series allows recording of up to DN6.591-32 32 channels 5 MS/s 16 channels 5 MS/s 48 channels with sampling rates of 80 MS/s or 24 channels with DN6.591-40 40 channels 5 MS/s 20 channels 5 MS/s sampling rates of 125 MS/s. These Ethernet Remote instruments DN6.591-48 48 channels 5 MS/s 24 channels 5 MS/s offer outstanding A/D features both in resolution and signal qual- DN6.592-24 24 channels 20 MS/s 12 channels 20 MS/s DN6.592-32 32 channels 20 MS/s 16 channels 20 MS/s ity. The inputs can be switched between Single-Ended with a pro- DN6.592-40 40 channels 20 MS/s 20 channels 20 MS/s grammable offset and True Differential. If used in differential mode DN6.592-48 48 channels 20 MS/s 24 channels 20 MS/s each two inputs are connected together reducing the number of DN6.593-24 24 channels 40 MS/s 12 channels 40 MS/s available channels by half. DN6.593-32 32 channels 40 MS/s 16 channels 40 MS/s Importantly, the high-resolution 16-bit ADCs deliver sixteen times DN6.593-40 40 channels 40 MS/s 20 channels 40 MS/s more resolution than digitizers using older 12-bit technology and DN6.593-48 48 channels 40 MS/s 24 channels 40 MS/s 256 times more resolu- tion than what is available from digital DN6.596-24 12 (24) channels 125 (80) MS/s 12 channels 125 MS/s scopes that commonly use 8-bit ADCs. DN6.596-32 16 (32) channels 125 (80) MS/s 16 channels 125 MS/s The digitizerNETBOX can be installed anywhere in the company DN6.596-40 20 (40) channels 125 (80) MS/s 20 channels 125 MS/s DN6.596-48 24 (48) channels 125 (80) MS/s 24 channels 125 MS/s LAN and can be remotely controlled from a host PC.SPECTRUM INSTRUMENTATION GMBH · AHRENSFELDER WEG 13-17 · 22927 GROSSHANSDORF · GERMANY 7.5.2020 PHONE: +49 (0)4102-6956-0 · FAX: +49 (0)4102-6956-66 · E-MAIL: info@spec.de · INTERNET: www.spectrum-instrumentation.com

Software Support driver supports IVI Scope, IVI Digitizer and IVI FGen class with IVI- C and IVI-COM interfaces. Windows Support The digitizerNETBOX/generatorNETBOX can be accessed from Third-party Software Products Windows 7, Windows 8,Windows 10 (each 32 bit and 64 bit). Most popular third-party software products, such as LabVIEW, Programming examples for Visual C++, C++ Builder, LabWin- MATLAB or LabWindows/CVI are supported. All drivers come dows/CVI, Delphi, Visual Basic, VB.NET, C#, J#, Python, Java and with examples and detailed documentation. IVI are included. Embedded Webserver Linux Support The integrated webserver The digitizerNETBOX/generatorNETBOX can be access- follows the LXI standard ed from any Linux system. The Linux support includes SMP and gathers information systems, 32 bit and 64 bit systems, versatile program- on the product, set up of ming examples for Gnu C++, Python as well as drivers for the Ethernet configuration MATLAB for Linux. SBench 6, the powerful data acquisi- and current status. It also tion and analysis software from Spectrum is also included as a Linux allows the setting of a con- version. figuration password, ac- cess to documentation Discovery Protocol and updating of the com- plete instrument firmware, The Discovery function including the embedded helps you to find and remote server and the identify any Spectrum LXI webserver. instruments, like the digitizerNETBOX and generatorNETBOX, avail- Hardware features and options able to your computer on the network. The Discovery function will also locate any Spectrum card products that are managed by an LXI Instrument installed Spectrum Remote Server somewhere on the network. The digitizerNETBOX and generatorNETBOX are fully After running the discovery function the card information is cached LXI instrument compatible and can be directly accessed by SBench 6. Furthermore the quali- to LXI Core 2011 following fied VISA address is returned and can be used by any software to the LXI Device Specification access the remote instrument. 2011 rev. 1.4. The digitizerNETBOX/generatorNETBOX has been tested and approved by the LXI Consortium. SBench 6 Professional Located on the front panel is the main on/off switch, LEDs showing The digitizerNETBOX and the LXI and Acquisition status and the LAN reset switch. generatorNETBOX can be used with Spectrum’s powerful software SBench 6 – a Professional license Front Panel for the software is already in- Standard BNC connectors are used stalled in the box. SBench 6 sup- for all analog input or output sig- ports all of the standard features of nals and all auxiliary signals like the instrument. It has a variety of clock and trigger. No special display windows as well as analy- adapter cables are needed and the sis, export and documentation connection is secure even when functions. used in a moving environment. • Available for Windows XP, Vista, Windows 7, Windows 8, Custom front panels are available Windows 10 and Linux on request even for small series, be it SMA, LEMO connectors or • Easy to use interface with drag and drop, docking windows and custom specific connectors. context menus • Display of analog and digital data, X-Y display, frequency Ethernet Connectivity domain and spread signals The GBit Ethernet connection can be • Designed to handle several GBytes of data used with standard COTS Ethernet • Fast data preview functions cabling. The integration into a stan- dard LAN allows to connect the IVI Driver digitizerNETBOX/generatorNET- The IVI standards define an open driver architecture, a set of instru- BOX either directly to a desktop PC ment classes, and shared software components. Together these pro- or Laptop or it is possible to place vide critical elements needed for instrument interchangeability. IVI's the instrument somewhere in the defined Application Programming Interfaces (APIs) standardize company LAN and access it from any desktop over the LAN. common measurement functions reducing the time needed to learn a new IVI instrument. Boot on Power on Option The digitizerNETBOX/generatorNETBOX can be factory config- The Spectrum products to be accessed with the IVI driver can be lo- ured to automatically start and boot upon availability of the input cally installed data acquisition cards, remotely installed data acqui- power rail. That way the instrument will automatically become sition cards or remote LXI instruments like available again upon loss of input power. digitizerNETBOX/generatorNETBOX. To maximize the compatibil- ity with existing IVI based software installations, the Spectrum IVI

Input Amplifier Multiple Recording The analog inputs can be adapt- The Multiple Recording ed to real world signals using a mode allows the recording of wide variety of settings that are several trigger events with an individual for each channel. By extremely short re-arming using software commands the in- time. The hardware doesn’t put termination can be changed need to be restarted in be- between 50 Ohm and 1 MOhm, one can select a matching input tween. The on-board memory is divided in several segments of the range and the signal offset can be compensated for. same size. Each of them is filled with data if a trigger event occurs. Pre- and posttrigger of the segments can be programmed. The num- Differential inputs ber of acquired segments is only limited by the used memory and With a simple software command the inputs can individually be is unlimited when using FIFO mode. switched from single-ended (in relation to ground) to differential by combining each two single-ended inputs to one differential input. Gated Sampling When the inputs are used in differential mode the A/D converter The Gated Sampling mode measures the difference between two lines with relation to system allows data recording con- ground. trolled by an external gate signal. Data is only record- Automatic on-board calibration ed if the gate signal has a All of the channels are calibrated in factory before the board is programmed level. In addi- shipped. To compensate for different variations like PC power sup- tion a pre-area before start ply, temperature and aging, the software driver provides routines of the gate signal as well as a post area after end of the gate signal for an automatic onboard offset and gain calibration of all input can be acquired. The number of gate segments is only limited by ranges. All the cards contain a high precision on-board calibration the used memory and is unlimited when using FIFO mode. reference. Timestamp Ring buffer mode The timestamp function The ring buffer mode is the writes the time positions of standard mode of all oscillo- the trigger events in an extra scope instruments. Digitized memory. The timestamps are data is continuously written relative to the start of record- into a ring memory until a ing, a defined zero time, ex- trigger event is detected. After the trigger, post-trigger samples are ternally synchronized to a radio clock, an IRIG-B a GPS receiver. recorded and pre-trigger samples can also be stored. The number Using the external synchronization gives a precise time relation for of pre-trigger samples available simply equals the total ring mem- acquisitions of systems on different locations. ory size minus the number of post trigger samples. ABA mode FIFO mode The ABA mode com- The FIFO mode is designed for continuous data transfer between re- bines slow continuous mote instrument and PC memory or hard disk. The control of the data recording with fast data stream is done automatically by the driver on interrupt request. acquisition on trigger The complete installed on-board memory is used for buffer data, events. The ABA mode making the continuous streaming extremely reliable. works like a slow data logger combined with a fast digitizer. The exact Channel trigger position of the trigger events is stored as timestamps in an extra The data acquisition instruments offer a wide variety of trigger memory. modes. Besides the standard signal checking for level and edge as known from oscilloscopes it’s also possible to define a window trig- Option Embedded Server ger. All trigger modes can be combined with the pulsewidth trigger. This makes it possible to trigger on signal errors like too long or too The option turns the digitizer- short pulses. In addition to this a re-arming mode (for accurate trig- NETBOX/generatorNETBOX ger recognition on noisy signals) the AND/OR conjunction of dif- in a powerful PC that allows to ferent trigger events is possible. As a unique feature it is possible to run own programs on a small use deactivated channels as trigger sources. and remote data acquisition system. The digitizerNET- BOX/generatorNETBOX is en- External trigger I/O hanced by more memory, a powerful CPU, a freely accessable All instruments can be triggered using an external TTL signal. It’s internal SSD and a remote software development access method. possible to use positive or negative edge also in combination with a programmable pulse width. An internally recognised trigger The digitizerNETBOX/generatorNETBOX can either run connected event can - when activated by software - be routed to the trigger to LAN or it can run totally independent, storing data to the internal connector to start external instruments. SSD. The original digitizerNETBOX/generatorNETBOX remote in- strument functionality is still 100 % available. Running the embed- Pulse width ded server option it is possible to pre-calculate results based on the Defines the minimum or maximum width that a trigger pulse must acquired data, store acquisitions locally and to transfer just the re- have to generate a trigger event. Pulse width can be combined with quired data or results parts in a client-server based software struc- channel trigger, pattern trigger and external trigger. ture. A different example for the digitizerNETBOX/generatorNETBOX embedded server is surveil- lance/logger application which can run totally independent for

DN6.59x - 48 channel 16 bit digitizerNETBOX up to 125 MS/sdays and send notification emails only over LAN or offloads stored data as soon as it’s connected again. Access to the embedded server is done through a standard text based Linux shell based on the ssh secure shell. External clock I/O Using a dedicated connector a sampling clock can be fed in from an external system. It’s also possible to output the internally used sampling clock to synchronise 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.DN2 / DN6 Technical Data Analog Inputs Resolution 16 bit (can be reduced to acquire simultaneous digital inputs) Input Range software programmable ±200 mV, ±500 mV, ±1 V, ±2 V, ±5 V, ±10 V Input Type software programmable Single-ended or True Differential Input Offset (single-ended) software programmable programmable to ±100% of input range in steps of 1% ADC Differential non linearity (DNL) ADC only 591x: ±0.2/±0.8 LSB (typ./max.) 592x: ±0.2/±0.8 LSB (typ./max.) 593x: ±0.5/±0.9 LSB (typ./max.) 594x: ±0.5/±0.9 LSB (typ./max.) 596x: ±0.5/±0.9 LSB (typ./max.) ADC Integral non linearity (INL) ADC only 591x: ±1.0/±2.3 LSB (typ./max.) 592x: ±1.0/±2.3 LSB (typ./max.) 593x: ±2.0/±7.5 LSB (typ./max.) 594x: ±2.0/±7.5 LSB (typ./max.) 596x: ±2.0/±7.5 LSB (typ./max.) Offset error (full speed), DC signal after warm-up and calibration ≤ 0.1% of range Gain error (full speed), DC signal after warm-up and calibration ≤ 0.1% of reading AC accuracy 1 kHz signal ≤ 0.3% of reading AC accuracy 50 kHz signal ≤ 0.5% of reading Crosstalk: Signal 1 MHz, 50 Ω range ≤ ±1V ≤ 95 dB on adjacent channels range ≥ ±2V ≤ 90 dB on adjacent channels Crosstalk: Signal 10 MHz, 50 Ω range ≤ ±1V ≤ 87 dB on adjacent channels range ≥ ±2V ≤ 85 dB on adjacent channels Analog Input impedance software programmable 50 Ω /1 MΩ || 30 pF Analog input coupling fixed DC Over voltage protection range ≤ ±1V ±5 V (1 MΩ), 3.5 Vrms (50 Ω) Over voltage protection range ≥ ±2V ±50 V (1 MΩ), 5 Vrms (50 Ω) Anti-Aliasing Filter (digital filtering active) 591x (5 MS/s) Digital Anti-Aliasing filter at 40% of sampling rate. Examples: 5 MS/s sampling rate -> anit-aliasing filter at 2 MHz 1 MS/s sampling rate -> anti-aliasing filter at 400 kHz Anti-Aliasing Filter (standard) 591x (5 MS/s) fixed 2.5 MHz 3rd order butterworth alike 592x (20 MS/s) fixed 10 MHz 3rd order butterworth alike 593x (40 MS/s) fixed 20 MHz 3rd order butterworth alike 594x (80 MS/s) fixed 40 MHz 3rd order butterworth alike 596x (125 MS/s) fixed 60 MHz 3rd order butterworth alike CMRR (Common Mode Rejection Ratio) range ≤ ±1V 100 kHz: 75 dB, 1 MHz: 60 dB, 10 MHz: 40 dB CMRR (Common Mode Rejection Ratio) range ≥ ±2V 100 kHz: 55 dB, 1 MHz: 52 dB, 10 MHz: 50 dB Channel selection (single-ended inputs) software programmable 1, 2, 4 or 8 channels (maximum is model dependent) Channel selection (true differential inputs) software programmable 1, 2 or 4 channels (maximum is model dependent) - 4 -

Trigger Available trigger modes software programmable Channel Trigger, External, Software, Window, Pulse, Re-Arm, Spike, Or/And, Delay Trigger level resolution software programmable 14 bit Trigger edge software programmable Rising edge, falling edge or both edges Trigger pulse width software programmable 0 to [4G - 1] samples in steps of 1 sample Trigger delay software programmable 0 to [4G - 1] samples in steps of 1 samples Trigger holdoff (for Multi, ABA, Gate) software programmable 0 to [4G - 1] samples in steps of 1 samples Multi, ABA, Gate: re-arming time < 40 samples (+ programmed pretrigger + programmed holdoff) Pretrigger at Multi, ABA, Gate, FIFO software programmable 8 up to [32 kSamples / number of active channels] in steps of 8 Posttrigger software programmable 8 up to [8G - 4] samples in steps of 8 (defining pretrigger in standard scope mode) Memory depth software programmable 16 up to [installed memory / number of active channels] samples in steps of 8 Multiple Recording/ABA segment size software programmable 8 up to [installed memory / number of active channels] samples in steps of 8 Internal/External trigger accuracy 1 sample Timestamp modes software programmable Standard, Startreset, external reference clock on X1 (e.g. PPS from GPS, IRIG-B) Data format Std., Startreset: 64 bit counter, increments with sample clock (reset manually or on start) RefClock: 24 bit upper counter (increment with RefClock) 40 bit lower counter (increments with sample clock, reset with RefClock) Extra data software programmable none, acquisition of X1/X2/X3 inputs at trigger time, trigger source (for OR trigger) Size per stamp 128 bit = 16 bytes External trigger Ext X1, X2, X3 External trigger type Single level comparator 3.3V LVTTL logic inputs External trigger impedance software programmable 50 Ω / 5 kΩ For electrical specifications refer to External trigger input level ±5 V (5 kΩ), ±2.5 V (50 Ω), „Multi Purpose I/O lines“ section. External trigger over voltage protection ±20 V (5 kΩ), 5 Vrms (50 Ω) External trigger sensitivity 200 mVpp (minimum required signal swing) External trigger level software programmable ±5 V in steps of 1 mV External trigger bandwidth 50 Ω DC to 400 MHz n.a. 5 kΩ DC to 300 MHz DC to 125 MHz Minimum external trigger pulse width ≥ 2 samples ≥ 2 samples Multi Purpose I/O lines Number of multi purpose output lines one, named X0 Number of multi purpose input/output lines three, named X1, X2, X3 Multi Purpose line X0 X1, X2, X3 Input: available signal types software programmable n.a. Synchronous Digital-In, Asynchronous Digital-In, Timestamp Reference Clock, Logic trigger Input: signal levels n.a. 3.3 V LVTTL Input: impedance n.a. 10 kΩ to 3.3 V Input: maximum voltage level n.a. -0.5 V to +4.0 V Input: maximum bandwidth n.a. 125 MHz Output: available signal types software programmable Run-, Arm-, Trigger-Output, Run-, Arm-, Trigger-Output, Asynchronous Digital-Out, Asynchronous Digital-Out ADC Clock Output Output: impedance 50 Ω Output: drive strength Capable of driving 50 Ω loads, maximum drive strength ±48 mA Output: type / signal levels 3.3V LVTTL, TTL compatible for high impedance loads Output: update rate (synchronous modes) sampling clock Option DN2.59x-08-Dig Number of additional multi-purpose I/O lines 8 (X4 to X11) Input: signal levels 3.3 V LVTTL Input: impedance 10 kΩ to 3.3 V Input: maximum voltage level -0.5 V to +4.0 V Input: maximum bandwidth 125 MHz Input: available signal types software programmable Synchronous Digital-In, Asynchronous Digital-In Output: available signal types software programmable Run-, Arm-, Trigger-Output, Asynchronous Digital-Out Output: update rate (synchronous modes) sampling clock Output: type / signal levels 3.3V LVTTL, TTL compatible for high impedance loads Output: impedance 50 Ω Output: drive strength Capable of driving 50 Ω loads, maximum drive strength ±48 mA

Clock Clock Modes software programmable internal PLL, external clock, external reference clock, sync Internal clock range (PLL mode) software programmable see „Clock Limitations and Bandwidth“ table below Internal clock accuracy after warm-up ≤ ±1.0 ppm (at time of calibration in production) Internal clock aging ≤ ±0.5 ppm / year PLL clock setup granularity (int. or ext. reference) 1 Hz External reference clock range software programmable 128 kHz up to 125 MHz Direct external clock to internal clock delay 4.3 ns Direct external clock range see „Clock Limitations and Bandwidth“ table below Direct external clock minimum LOW/HIGH time see „Clock Limitations and Bandwidth“ table below External clock type Single level comparator External clock input level ±5 V (5 kΩ), ±2.5 V (50 Ω), External clock input impedance software programmable 50 Ω / 5 kΩ External clock over voltage protection ±20 V (5 kΩ), 5 Vrms (50 Ω) External clock sensitivity 200 mVpp (minimum required signal swing) External clock level software programmable ±5 V in steps of 1mV External clock edge rising edge used External reference clock input duty cycle 45% - 55% Clock output electrical specification Available via Multi Purpose output X0. Refer to „Multi Purpose I/O lines“ section. Synchronization clock multiplier „N“ for software programmable N being a multiplier (1, 2, 3, 4, 5, ... Max) of the card with the currently slowest sampling clock. different clocks on synchronized cards The card maximum (see „Clock Limitations and Bandwidth“ table below) must not be exceeded. ABA mode clock divider for slow clock software programmable 8 up to (64k - 8) in steps of 8 Channel to channel skew on one card < 200 ps (typical) Skew between star-hub synchronized cards < 100 ps (typical) Connectors Analog Inputs 9 mm BNC female (one for each single-ended input) Cable-Type: Cab-9m-xx-xx Trigger Input 9 mm BNC female Cable-Type: Cab-9m-xx-xx Clock/Reference Clock Input 9 mm BNC female Cable-Type: Cab-9m-xx-xx Clock Output, Multi-Purpose X0 9 mm BNC female Cable-Type: Cab-9m-xx-xx Multi-Purpose I/O X1, X2, X3 Programmable Direction 9 mm BNC female Cable-Type: Cab-9m-xx-xx Option digitizerNETBOX/generatorNETBOX embedded server (DN2.xxx-Emb, DN6.xxx-Emb) CPU Intel Quad Core 2 GHz System memory 4 GByte RAM System data storage Internal 128 GByte SSD Development access Remote Linux command shell (ssh), no graphical interface (GUI) available Accessible Hardware Full access to Spectrum instruments, LAN, front panel LEDs, RAM, SSD Integrated operating system OpenSuse 12.2 with kernel 4.4.7. Internal PCIe connection DN2.20, DN2.46, DN2.47, DN2.49, DN2.59, DN2.60 PCIe x1, Gen1 DN6.46, DN6.49, DN6.59 DN2.22, DN2.44, DN2.66 PCIe x1, Gen2 DN6.22, DN6.44, DN6.66 Ethernet specific details LAN Connection Standard RJ45 LAN Speed Auto Sensing: GBit Ethernet, 100BASE-T, 10BASE-T LAN IP address programmable DHCP (IPv4) with AutoIP fall-back (169.254.x.y), fixed IP (IPv4) Sustained Streaming speed DN2.20, DN2.46, DN2.47, DN2.49, DN2.60 up to 70 MByte/s DN6.46, DN6.49 DN2.59, DN2.22, DN2.44, DN2.66 up to 100 MByte/s DN6.59, DN6.22, DN6.44, DN6.66 Used TCP/UDP Ports Webserver: 80 mDNS Daemon: 5353 VISA Discovery Protocol: 111, 9757 UPNP Daemon: 1900 Spectrum Remote Server: 1026, 5025 Power connection details Mains AC power supply Input voltage: 100 to 240 VAC, 50 to 60 Hz AC power supply connector IEC 60320-1-C14 (PC standard coupler) Power supply cord power cord included for Schuko contact (CEE 7/7) Serial connection details (DN2.xxx with hardware ≥ V11) Serial connection (RS232) For diagnostic purposes only. Do not use, unless being instructed by a Spectrum support agent. 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

Clock Limitations and Bandwidth M2p.591x, M2p.592x, M2p.593x M2p.594x M2p.596x DN2.591-xx DN2.592-xx DN2.593-xx DN2.596-xx DN6.591-xx DN6.592-xx DN6.593-xx DN6.596-xx max internal clock (non-synchronized cards) 5 MS/s 20 MS/s 40 MS/s 80 MS/s 125 MS/s min internal clock (non-synchronized cards) 1 kS/s 1 kS/s 1 kS/s 1 kS/s 1 kS/s max internal clock (cards synchronized via star-hub) 5 MS/s 20 MS/s 40 MS/s 80 MS/s 125 MS/s min internal clock (cards synchronized via star-hub) 128 kS/s 128 kS/s 128 kS/s 128 kS/s 128 kS/s max direct external clock 5 MS/s 20 MS/s 40 MS/s 80 MS/s 125 MS/s min direct external clock 1 MS/s 1 MS/s 1 MS/s 1 MS/s 1 MS/s min direct external clock LOW time 25 ns 25 ns 4 ns 4 ns 4 ns min direct external clock HIGH time 25 ns 25 ns 4 ns 4 ns 4 ns -3 dB analog input bandwidth > 2.0 MHz > 10 MHz > 20 MHz > 40 MHz > 60 MHz -3 dB analog input bandwidth, digital filter de-activated > 2.5 MHz n.a. n.a. n.a. n.a. RMS Noise Level (Zero Noise), typical figures M2p.591x, DN2.591-xx, DN6.591-xx digital filtering active Input Range ±200 mV ±500 mV ±1 ±2 V ±5 V ±10 V Voltage resolution 6.1 µV 15.3 µV 30.5 µV 61.0 µV 152.6 µV 305.2 µV 50 Ω <1.5 LSB <10 µV <1.2 LSB <19 µV <1.0 LSB <31 µV <3.0 LSB <183 µV <1.6 LSB <245 µV <1.2 LSB <367 µV 1 MΩ <1.5 LSB <10 µV <1.2 LSB <19 µV <1.0 LSB <31 µV <3.0 LSB <183 µV <1.6 LSB <245 µV <1.2 LSB <367 µV M2p.592x, DN2.592-xx, DN6.592-xx Input Range ±200 mV ±500 mV ±1 ±2 V ±5 V ±10 V Voltage resolution 6.1 µV 15.3 µV 30.5 µV 61.0 µV 152.6 µV 305.2 µV 50 Ω <4.0 LSB <25 µV <2.6 LSB <40 µV <2.1 LSB <65 µV <4.3 LSB <263 µV <2.6 LSB <397 µV <2.1 LSB <641 µV 1 MΩ <4.5 LSB <28 µV <3.0 LSB <46 µV <2.5 LSB <107 µV <4.5 LSB <275 µV <3.0 LSB <458 µV <2.5 LSB <763 µV M2p.593x, DN2.593-xx, DN6.593-xx Input Range ±200 mV ±500 mV ±1 ±2 V ±5 V ±10 V Voltage resolution 6.1 µV 15.3 µV 30.5 µV 61.0 µV 152.6 µV 305.2 µV 50 Ω <6.0 LSB <37 µV <5.0 LSB <77 µV <4.5 LSB <138 µV <6.5 LSB <397 µV <5.0 LSB <763 µV <4.5 LSB <1.4 mV 1 MΩ <6.5 LSB <40 µV <5.0 LSB <77 µV <4.5 LSB <138 µV <6.5 LSB <397 µV <5.0 LSB <763 µV <4.5 LSB <1.4 mV M2p.594x Input Range ±200 mV ±500 mV ±1 ±2 V ±5 V ±10 V Voltage resolution 6.1 µV 15.3 µV 30.5 µV 61.0 µV 152.6 µV 305.2 µV 50 Ω <7.0 LSB <43 µV <5.5 LSB <85 µV <4.5 LSB <138 µV <7.5 LSB <458 µV <5.5 LSB <840 µV <4.5 LSB <1.4 mV 1 MΩ <7.5 LSB <46 µV <5.8 LSB <89 µV <4.5 LSB <138 µV <7.7 LSB <470 µV <5.8 LSB <886 µV <4.5 LSB <1.4 mV M2p.596x, DN2.596-xx, DN6.596-xx Input Range ±200 mV ±500 mV ±1 ±2 V ±5 V ±10 V Voltage resolution 6.1 µV 15.3 µV 30.5 µV 61.0 µV 152.6 µV 305.2 µV 50 Ω <9.0 LSB <55µV <6.8 LSB <104 µV <5.5 LSB <168 µV <9.0 LSB <550 µV <6.8 LSB <1.1 mV <5.5 LSB <1.7 mV 1 MΩ <9.5 LSB <58µV <7.1 LSB <109 µV <5.5 LSB <168 µV <9.5 LSB <580 µV <7.1 LSB <1.1 mV <5.5 LSB <1.7 mV Dynamic Parameters, typical figures M2p.591x, DN2.591-xx, DN6.591-xx digital filtering active Test - sampling rate 5 MS/s Input Range ±200 mV ±500 mV ±1 V ±2 V Test Signal Frequency 20 kHz 1 MHz 20 kHz 1 MHz 20 kHz 1 MHz 20 kHz 1 MHz SNR (typ) ≥ 83.5 dB ≥ 82.8 dB ≥ 85.0 dB ≥ 84.9 dB ≥ 86.2 dB ≥ 85.7 dB n.a. n.a. THD (typ) (≤ 84.4 dB) ≤ -93.5 dB (≤ 86.3 dB) ≤ -93.1 dB (≤ 86.9 dB) ≤ -91.8 dB n.a. n.a. SFDR (typ), excl. harm. ≥ 103.0 dB ≥ 103.0 dB ≥ 104.0 dB ≥ 107.0 dB ≥ 103.0 dB ≥ 107.0 dB n.a. n.a. ENOB (based on SNR) ≥ 13.6 LSB ≥ 13.4 LSB ≥ 13.8 LSB ≥ 13.8 LSB ≥ 14.0 LSB ≥ 13.9 LSB n.a. n.a. ENOB (based on SINAD) ≥ 13.1 LSB ≥ 13.4 LSB ≥ 13.4 LSB ≥ 13.7 LSB ≥ 13.6 LSB ≥ 13.8 LSB n.a. n.a. M2p.591x, DN2.591-xx, DN6.591-xx digital filtering active Test - sampling rate 3 MS/s 1 MS/s 500 kS/s 200 kS/s Input Range ±200 mV ±1 V ±200 mV ±1 V ±200 mV ±1 V ±200 mV ±1 V Test Signal Frequency 20 kHz 20 kHz 20 kHz 20 kHz Input bandwidth due to digital filter 1.2 MHz 400 kHz 200 klHz 80 kHz SNR (typ) ≥ 85.3 dB ≥ 86.6 dB ≥ 87.2 dB ≥ 89.1 dB ≥ 86.2 dB ≥ 89.7 dB ≥ 86.4 dB ≥ 89.4 dB THD (typ) (≤ 88.9 dB) (≤ -88.5 dB) (≤ 86.4 dB) (≤ -88.6 dB) (≤ 86.9 dB) (≤ -90.8 dB) (≤ 89.7 dB) (≤ -93.8 dB) SFDR (typ), excl. harm. ≥ 103.1 dB ≥ 103.6 dB ≥ 102.8 dB ≥ 105.6 dB ≥ 103.1 dB ≥ 103.1 dB ≥ 103.1 dB ≥ 103.5 dB ENOB (based on SNR) ≥ 13.9 LSB ≥ 14.1 LSB ≥ 14.2 LSB ≥ 14.5 LSB ≥ 14.0 LSB ≥ 14.6 LSB ≥ 14.1 LSB ≥ 14.6 LSB ENOB (based on SINAD) ≥ 13.5 LSB ≥ 13.7 LSB ≥ 13.6 LSB ≥ 14.0 LSB ≥ 13.6 LSB ≥ 14.2 LSB ≥ 13.8 LSB ≥ 14.3 LSB (20 kHz measurements are missing the correct bandpass filter and therefore show a larger THD that is coming from the generator)

M2p.592x, DN2.592-xx, DN6.592-xx Test - sampling rate 20 MS/s Input Range ±200 mV ±500 mV ±1 V ±2 V Test Signal Frequency 1 MHz n.a. 1 MHz n.a. 1 MHz n.a. 1 MHz n.a. SNR (typ) ≥ 77.2 dB n.a. ≥ 79.8 dB n.a. ≥ 81.0 dB n.a. ≥ 75.0 dB n.a. THD (typ) ≤ 92.5 dB n.a. ≤ -92.8 dB n.a. ≤ -89.5 dB n.a. ≤ -76.5 dB n.a. SFDR (typ), excl. harm. ≥ 103.0 dB n.a. ≥ 103.0 dB n.a. ≥ 105.0 dB n.a. ≥ 93.0 dB n.a. ENOB (based on SNR) ≥ 12.5 LSB n.a. ≥ 13.0 LSB n.a. ≥ 13.2 LSB n.a. ≥ 12.2 LSB n.a. ENOB (based on SINAD) ≥ 12.5 LSB n.a. ≥ 13.0 LSB n.a. ≥ 13.1 LSB n.a. ≥ 11.8 LSB n.a. M2p.593x, DN2.593-xx, DN6.593-xx Test - sampling rate 40 MS/s Input Range ±200 mV ±500 mV ±1 ±2 V Test Signal Frequency 1 MHz 10 MHz 1 MHz 10 MHz 1 MHz 10 MHz 1 MHz 10 MHz SNR (typ) ≥ 73.0 dB ≥ 72.6 dB ≥ 74.6 dB ≥ 74.4 dB ≥ 75.3 dB ≥ 75.3 dB ≥ 71.9 dB ≥ 71.8 dB THD (typ) ≤ -87.8 dB ≤ -67.0 dB ≤ -89.0 dB ≤ -67.0 dB ≤ -86.1 dB ≤ -67.2 dB ≤ -79.0 dB ≤ -67.2 dB SFDR (typ), excl. harm. ≥ 98.3 dB ≥ 96.5 dB ≥ 98.8 dB ≥ 99.5 dB ≥ 101.0 dB ≥ 100.0 dB ≥ 81.7 dB ≥ 91.3 dB ENOB (based on SNR) ≥ 11.8 LSB ≥ 11.8 LSB ≥ 12.1 LSB ≥ 12.0 LSB ≥ 12.2 LSB ≥ 12.2 LSB ≥ 11.7 LSB ≥ 11.6 LSB ENOB (based on SINAD) ≥ 11.8 LSB ≥ 10.7 LSB ≥ 12.1 LSB ≥ 10.7 LSB ≥ 12.2 LSB ≥ 10.8 LSB ≥ 11.6 LSB ≥ 10.7 LSB M2p.594x Test - sampling rate 80 MS/s Input Range ±200 mV ±500 mV ±1 ±2 V Test Signal Frequency 1 MHz 10 MHz 1 MHz 10 MHz 1 MHz 10 MHz 1 MHz 10 MHz SNR (typ) ≥ 70.6 dB ≥ 70.5 dB ≥ 72.9 dB ≥ 72.8 dB ≥ 74.2 dB ≥ 74.2 dB ≥ 69.8 dB ≥ 69.8 dB THD (typ) ≤ -87.3 dB ≤ -76.9 dB ≤ -86.6 dB ≤ -76.3 dB ≤ -84.8 dB ≤ -70.1 dB ≤ -79.0 dB ≤ -77.9 dB SFDR (typ), excl. harm. ≥ 97.5 dB ≥ 105.0 dB ≥ 101.0 dB ≥ 104.0 dB ≥ 100.0 dB ≥ 100.0 dB ≥ 96.9 dB ≥ 96.6 dB ENOB (based on SNR) ≥ 11.4 LSB ≥ 11.4 LSB ≥ 11.8 LSB ≥ 11.8 LSB ≥ 12.0 LSB ≥ 12.0 LSB ≥ 11.2 LSB ≥ 11.2 LSB ENOB (based on SINAD) ≥ 11.4 LSB ≥ 11.3 LSB ≥ 11.8 LSB ≥ 11.5 LSB ≥ 12.0 LSB ≥ 11.1 LSB ≥ 11.2 LSB ≥ 11.2 LSB M2p.596x, DN2.596-xx, DN6.596-xx Test - sampling rate 125 MS/s Input Range ±200 mV ±500 mV ±1 V ±2 V Test Signal Frequency 1 MHz 10 MHz 40 MHz 1 MHz 10 MHz 40 MHz 1 MHz 10 MHz 40 MHz 1 MHz 10 MHz 40 MHz SNR (typ) ≥ 68.1 dB ≥ 66.2 dB ≥ 65.5 dB ≥ 70.5 dB ≥ 69.9 dB ≥ 68.7 dB ≥ 73.3 dB ≥ 72.7 dB ≥ 71.5 dB ≥ 67.8 dB ≥ 65.8 dB ≥ 65.1 dB THD (typ) ≤ -81.5 dB ≤ -74.5 dB ≤ -53.7 dB ≤ -82.5 dB ≤ -77.6 dB ≤ -55.3 dB ≤ -83.3 dB ≤ -68.9 dB ≤ -57.3 dB ≤ -78.0 dB ≤ -75.6 dB ≤ -53.7 dB SFDR (typ), excl. harm. ≥ 95.0 dB ≥ 93.4 dB ≥ 92.3 dB ≥ 97.5 dB ≥ 96.8 dB ≥ 94.0 dB ≥ 98.5 dB ≥ 98.1 dB ≥ 96.4 dB ≥ 91.5 dB ≥ 89.0 dB ≥ 89.0 dB ENOB (based on SNR) ≥ 11.0 LSB ≥ 10.7 LSB ≥ 10.6 LSB ≥ 11.4 LSB ≥ 11.3 LSB ≥ 11.1 LSB ≥ 11.8 LSB ≥ 11.8 LSB ≥ 11.6 LSB ≥ 11.0 LSB ≥ 10.6 LSB ≥ 10.5 LSB ENOB (based on SINAD) ≥ 11.0 LSB ≥ 10.6 LSB ≥ 8.6 LSB ≥ 11.4 LSB ≥ 11.1 LSB ≥ 8.9 LSB ≥ 11.7 LSB ≥ 11.0 LSB ≥ 9.2 LSB ≥ 10.9 LSB ≥ 10.6 LSB ≥ 8.6 LSB 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. DN6 specific Technical Data Environmental and Physical Details DN6.xxx Dimension of Chassis without connectors or bumpers L x W x H 464 mm x 431 mm x 131 mm Dimension of Chassis with 19“ rack mount option L x W x H 464 mm x TBD mm x 131 mm (3U height) Weight (3 internal acquisition/generation modules) 12.1 kg, with rack mount kit: TBD kg Weight (4 internal acquisition/generation modules) 12.5 kg, with rack mount kit: TBD kg Weight (5 internal acquisition/generation modules) 12.9 kg, with rack mount kit: TBD kg Weight (6 internal acquisition/generation modules) 13.4 kg, with rack mount kit: TBD kg Warm up time 10 minutes Operating temperature 0°C to 40°C Storage temperature -10°C to 70°C Humidity 10% to 90% Dimension of packing (single DN6) L x W x H 580 mm x 580 mm x 280 mm Volume weight of Packing (single DN6) 19.0 kgs

Power Consumption 230 VAC 24 channel versions, standard memory TBD TBD 32 channel versions, standard memory TBD TBD 40 channel versions, standard memory TBD TBD 48 channel versions, standard memory TBD TBD MTBF MTBF TBD hours

Block diagram of digitizerNETBOX DN6 • The number of maximum channels and internal digitizer modules and existance of a synchronization Star-Hub is model dependent. Block diagram of digitzerNETBOX module DN6.59x

Order Information The digitizerNETBOX is equipped with a large internal memory for data storage 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, drivers and examples for C/C++, IVI (Scope and Digitizer class), LabVIEW (Windows), MATLAB (Windows and Linux), .NET, Delphi, Java, Python and a Professional license of the oscilloscope software SBench 6 are included. The system is delivered with a connection cable meeting your countries power connection. Additional power connections with other standards are available as option. d igitizerNETBOX DN6 - Ethernet/LXI Interface Order no. A/D Resolution Bandwidth Memory Single-Ended Inputs Differential Inputs DN6.591-24 16 Bit 2.5 MHz 3 x 512 MSamples 24 channels 5 MS/s 12 channels 5 MS/s DN6.591-32 16 Bit 2.5 MHz 4 x 512 MSamples 32 channels 5 MS/s 16 channels 5 MS/s DN6.591-40 16 Bit 2.5 MHz 5 x 512 MSamples 40 channels 5 MS/s 20 channels 5 MS/s DN6.591-48 16 Bit 2.5 MHz 6 x 512 MSamples 48 channels 5 MS/s 24 channels 5 MS/s DN6.592-24 16 Bit 10 MHz 3 x 512 MSamples 24 channels 20 MS/s 12 channels 20 MS/s DN6.592-32 16 Bit 10 MHz 4 x 512 MSamples 32 channels 20 MS/s 16 channels 20 MS/s DN6.592-40 16 Bit 10 MHz 5 x 512 MSamples 40 channels 20 MS/s 20 channels 20 MS/s DN6.592-48 16 Bit 10 MHz 6 x 512 MSamples 48 channels 20 MS/s 24 channels 20 MS/s DN6.593-24 16 Bit 20 MHz 3 x 512 MSamples 24 channels 40 MS/s 12 channels 40 MS/s DN6.593-32 16 Bit 20 MHz 4 x 512 MSamples 32 channels 40 MS/s 16 channels 40 MS/s DN6.593-40 16 Bit 20 MHz 5 x 512 MSamples 40 channels 40 MS/s 20 channels 40 MS/s DN6.593-48 16 Bit 20 MHz 6 x 512 MSamples 48 channels 40 MS/s 24 channels 40 MS/s DN6.596-24 16 Bit 60 MHz 3 x 512 MSamples 12 channels 125 MS/s 12 channels 125 MS/s 24 channels 80 MS/s DN6.596-32 16 Bit 60 MHz 4 x 512 MSamples 16 channels 125 MS/s 16 channels 125 MS/s 32 channels 80 MS/s DN6.596-40 16 Bit 60 MHz 5 x 512 MSamples 20 channels 125 MS/s 20 channels 125 MS/s 40 channels 80 MS/s DN6.596-48 16 Bit 60 MHz 6 x 512 MSamples 24 channels 125 MS/s 24 channels 125 MS/s 48 channels 80 MS/s Options Order no. Option DN6.xxx-Rack 19“ rack mounting set for self mounting DN6.xxx-Emb Extension to Embedded Server: CPU, more memory, SSD. Access via remote Linuxs secure shell (ssh) DN6.xxx-BTPWR Boot on Power On: the digitizerNETBOX/generatorNETBOX automatically boots if power is switched on. BNC Cables The standard adapter cables are based on RG174 cables and have a nominal attenuation of 0.3 dB/m at 100 MHz. for Connections Connection Length to SMA male to SMA female to BNC male to SMB female All BNC male 80 cm Cab-9m-3mA-80 Cab-9m-3fA-80 Cab-9m-9m-80 Cab-9m-3f-80 All BNC male 200 cm Cab-9m-3mA-200 Cab-9m-3fA-200 Cab-9m-9m-200 Cab-9m-3f-200 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 Core i3, Core i5, Core i7, Core i9 and Xeon are trademarks and/or registered trademarks of Intel Corporation. AMD, Opteron, Sempron, Phenom, FX, Ryzen and EPYC are trademarks and/or registered trademarks of Advanced Micro Devices. NVIDIA, CUDA, GeForce, Quadro and Tesla are trademarks/registered trademarks of NVIDIA Corporation.