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| keysight technologies M8190A arbitrary waveform generator 12 gsa/s arbitrary waveform generator data sheet
02 | keysight | M8190A arbitrary waveform generator - data sheet high resolution + wide bandwidth in an awg 03 | keysight | M8190A arbitrary waveform generator - data sheet M8190A at a glance C precision awg with two dac settings C 14-bit resolution up to 8 gsa/s C 12-bit resolution up to 12 gsa/s C variable sample rate from 125 msa/s to 8/12 gsa/s C spurious-free-dynamic range (sfdr) up to 90 dbc typical C harmonic distortion (hd) up to C72 dbc typical C up to 12.25 effective number of bits (enob) C up to 2 gsa arbitrary waveform memory per channel with advanced sequencing C analog bandwidth 5 ghz C optional real-time digital signal processing in keysight technologies, inc. proprietary asic for: C digital up-conversion to if C changing waveform parameters on the fy C form-factor: 2 u axie module, controlled via external pc or axie system controller C supported software: keysight benchlink waveform editor, matlab, labview, keysight signal studio pulsebuilder, signal studio wlan, test automation software support for mhl and hdmi; planned support for signal studio multitone waveform fle import capability C import waveform format by series: C txt fle format (compatibility: keysight M8190A) C txt14 fle format (compatibility: keysight M8190A) C bin fle format (compatibility: keysight M8190A. recommended as standard binary fle import format.) C iqbin fle format (compatibility: keysight M8190A. recommended as standard binary fle import format.) C bin6030 fle format (compatibility: keysight n6030a arbitrary waveform generator, 15-bit, 1.25 gs/s) C bin5110 fle format (compatibility: keysight 5110a) C n5110b baseband studio for waveform capture - keysight C n5110a baseband studio for waveform streaming C licensed (sigstudioencrypted in the sfp) fle format (compatibility: keysight signal studio generated encrypted fle) C mat89600 (compatibility: 89600 vsa) C dsa90000 (compatibility: dsa90000 oscilloscope) C csv (compatibility: keysight M8190A) M8190A arbitrary waveform generator (awg) three amplifers for different applications C direct dac optimized for best sfdr & hd C sfdr up to C90 dbc (typ), fout = 100 mhz, measured dc to 1 ghz C amplitude ~350 mvpp ... 700 mvpp, offset C20 mv ... +20 mv C differential output C dc amplifer 1 optimized for serial data/time domain applications C amplitude 500 mvpp ... 1.0 vpp; (overprogramming down to 150 mv possible) output voltage window: C1.0 v +3.3 v C t rise/fall, 20% - 80% < 60 ps C differential output C ac amplifer 1 optimized to generate high voltage, high bandwidth signals C 50 mhz to 5 ghz bandwidth C single ended, ac coupled output C amplitude: 200 mvpp ... 2.0 vpp m8192a multi-channel synchronization module C phase coherent synchronization of up to 6 M8190A modules (= 12 channels) C one trigger input can trigger up to 6 M8190A modules with deterministic latency C skew repeatability of 2 ps between any two channels - independent of sample rate C skew calibration with 50 fs delay resolution between any two channels C 1u axie module for high port density 1. amp option 04 | keysight | M8190A arbitrary waveform generator - data sheet this description signifes a level of versatility that enables you to set up complex real-world signalswhether you need precise signals to characterize the performance of a design or need to stress a device to its limits. from low-observable radar to high-density communications, testing is more realistic with precision arbitrary waveform generation from an ssg. take reality to the extreme: a keysight awg is the source of greater fdelity, delivering high resolution and wide bandwidth simultaneously. this unique combination lets you create signal scenarios that push your designs to the limit and bring new insights to your analysis. get bits and bandwidthand enhance your reality. get reliable, repeatable measurements from precise signal simulations enhance your reality a better name for an advanced arbitrary waveform generator is a signal scenario generator or ssg. high-quality signal generation is the foundation of reliable and repeatable measurements. the keysight M8190A ensures accuracy and repeatability with 14-bit resolution, up to 8 gsa/s sampling rate and up to 90 dbc sfdr. high dynamic range and excellent vertical resolution gives you confdence that you are testing your device, not the signal source. as an example, a test setup that exhibits a high error vector magnitude (evm) reading might prevent you from seeing problems within your device under test (dut). the level of reality possible with the M8190A minimizes problems like this. evm vs. time constellation diagram statistics spectrum 05 | keysight | M8190A arbitrary waveform generator - data sheet versatile an awg is the most versatile signal scenario generator possible. capabilities such as easy switching between 14-bit output at 8 gsa/s and 12-bit output at 12 gsa/s help you handle multiple applications and measurement requirements. optimize the output to match your application 1. amp option best sfdr and hd high bandwidth high voltage time domain measurements low jitter optimized for different signal characteristics C single-ended or differential output C amplitude 350 mv pp 700 mv pp , single-ended C offset C20 mv ... +20 mv C direct output C adjustable differential offset C up to 5 ghz C single-ended, ac coupled output C amplitude 200 mv pp to 2.0 v pp , single-ended C ac amplifer 1 C single-ended or differential, dc-coupled output C amplitude 500 mv pp 1.0 v pp single-ended C output voltage window C 1.0 v to +3.3 v C transition times (20/80) < 60 ps C dc amplifer 1 because every application calls for different signal characteristics, the keysight M8190A also contains three amplifers that are optimized for i/q signals, if/rf output, or clean time-domain signals. you can switch between them as needed through software commands. some applications call for multi-channel support. the m8192 axie module can be plugged into the chassis ensuring alignment up to 12-channels. 06 | keysight | M8190A arbitrary waveform generator - data sheet *planned 81199a keysight wideband waveform center n7617b signal studio wlan matlab labview visual studio plus keysight systemvue n7620b pulse builder keysight 33503a benchlink waveform builder pro n7621b signal studio multitone* n5990a test automation software for mhl n5990a test automation software for hdmi for example, 2 gsa of memory combined with advanced sequencing capabilities allow you to use the memory effciently and effectively. memory create complex signal scenarioseffciently highly realistic testing often requires long play times and long signal scenarios direct access to individual memory segments is possible in real time through the dynamic sequence control input. you can create waveforms and download them into the M8190A using software applications such as signal studio pulse builder, multi-tone and wlan; systemvue, matlab, labview or your own routines written in c++, c# or visual basic. for sensitive applications, memory storage is not persistent: memory contents are volatile and are erased when power is turned off. 07 | keysight | M8190A arbitrary waveform generator - data sheet confgure the typical test setup shown to the right covers high rf applications up to 40 or 60 ghz. in this case the M8190A generates differen - tial i/q signals that are sent to an upconverter such as the keysight psg signal generator. the M8190A is packaged in the axie form factor, which reduces system size, weight and footprint. assemble the best confguration for your application the block diagrams shown to the right illustrate confgurations for i/q modulation and direct if/rf output. the M8190A supports di - rect generation of if signals: because this is done digitally, signal quality is outstanding. the instrument provides an analog bandwidth of 5 ghz; if higher output frequency is needed a mixer must be added to the confguration. if/rf up to 5 ghz modulation bw (8 ghz with doublet mode) data up to 6 gb/s pcie ? or usb direct if/rf rf/if/data out M8190A i q m o d u l a t i o n m a r k e r o utp u t p u lse m o d . i n p u t r f / i f o u t m 8 1 9 0 a e 8 2 6 7 d o p t . 0 1 6 d i f f e r e n t i a l i / q s i g n a l s m odu l a t i o n b w u p t o 2 g h z r f u p t o 4 4 g h z p c i e ? or usb 08 | keysight | M8190A arbitrary waveform generator - data sheet the M8190A is equipped to ensure fexible modifcations to ft new distortion requirements by simply adapting the waveform itself. you can easily mimic analog imperfections that occur in real-world environments by using mathematical description in tools such as matlab. this minimizes the need for additional hardware while preserving the ability to create realistic signal simulations. generate multi-level signals with programmable isi and jitter up to 6 gb/s jitter and noise cause misalignment of edges and levels, resulting in data errors. multi-level signals 09 | keysight | M8190A arbitrary waveform generator - data sheet the foundation is digital technology, which is becoming more prevalent because it provides advantages such as reduced size, lower power requirements, better calibration and faster volume scans. when developing radar systems, real-life testing is very expensive. simulations with highly realistic signals help reduce the cost of system testing. the keysight M8190A addresses these needs with three key capabilities: wide bandwidth, high resolution and long play times. in aerospace and defense, technology is evolving to wider bandwidths without compromising on resolution. push radar and electronic warfare designs farther with highly realistic signal scenarios scenarios radar chirp with phase changes on the fy real-time digital signal processing with keysight proprietary asic digital up-conversion takes testing one step further. the wide bandwidth allows generating the if signal directly. the iq data will be upconverted digitally in hardware which gives you best signal quality in the desired frequency range. the frequency resolution is very precise with sample clock down to the picosecond range. in addition effcient memory usage allows to extend the playtime by up to 1 million times. for example for a radar signal the waveform needs to be stored only once and amplitude, frequency and phase are stored independently. precise carrier frequency, phase and amplitude settings is possible in real-time under sequencer control. even complex operations such as frequency sweep are possible. streaming functionality is available for infnite playtime. endless scenarios can be played. phase frequency amplitude 10 | keysight | M8190A arbitrary waveform generator - data sheet infnite playtime streaming and memory ping pong while up to 2g samples of waveform memory and a powerful se - quencing engine provide suffcient playtime for most cases, there are some applications, such as radar scenario simulations, where playtimes in the order of several minutes are required. in another class of applications, the number of possible waveform segments is too large to be pre-loaded into the waveform mem - ory. an example might be npr measurement where thousands of waveform combinations are required to cover all test cases and the signal must not be interrupted. to address these applications, the M8190A offers the unique capability to download waveforms into portions of the waveform memory while the generator is running. in its simplest form, two waveform segments (a and b) are defned and while the generator outputs segment a repetitively, software can update segment b. using a software command, the generator switches over to output segment b and while b is output, segment a can be overwritten and so on. this functionality is often referred to as memory ping pong. taking this a step further, the waveform memory can be split up into a certain number (>= 5) of waveform segments which are linked together as a ring buffer (i.e. a ? b ? c ? d ? e ? a ? b, etc.). the generator sequentially outputs each waveform segment and as soon as it proceeds to the next one, the software loads a new waveform into this segment. this mode of operation is referred to as streaming. in continuous streaming mode, the generator proceeds from one segment to the next without any pauses. obviously, this mode requires the software and controlling pc to deliver new waveform segments fast enough to keep up with the rate that the wave - forms are output. in triggered streaming mode, the generator proceeds to the next segment upon an internal or external trigger event. this mode is particularly useful for pulsed radar simulations, where short pulses are interleaved with long pauses with a certain on/ off ratio. depending on the on/off ratio, the required throughput for waveform download can be dramatically reduced (resp. the output bandwidth during pulse on-time increased). streaming works best in conjunction with digital up-conversion mode, because the baseband information can be provided at a much lower sample rate C independent of the carrier frequency. trigger trigger pulse 3 pulse 4 pulse 5 pulse 6 pulse 7 pulse 8 already played trigger trigger trigger trigger trigger 11 | keysight | M8190A arbitrary waveform generator - data sheet data sources waveform data for streaming can be retrieved from a number of sources: C harddisk C typically a fast raid drive or solid state drive (ssd), which offers suffcient data throughput for continu - ous streaming. C algorithmically generated C typically a pre-calculated set of waveforms that are available in pc memory. user software can select which waveform is used at which point in time. C from digitizer C to realize capture/replay scenarios. thoughput and achievable bandwidth for continuous streaming, the hardware and software on the controlling pc must be able to deliver data fast enough to keep up with waveform generation. on a high-end pc, a thoughput of 500 C 600 mbyte/s are achievable. in digi - tal up-conversion mode, this corresponds to a modulation bandwidth of 125 C 150 mhz (4 bytes per i/q sample pair). in triggered streaming mode, approx. 2 ghz modulation bandwidth can be achieved. this is the maximum that can be achieved in duc mode C depending on the on/off ratio of the signal ( please refer to publication no. 5991-3937en ). availability the memory ping-pong and streaming functionality is available starting with M8190A frmware rev. 3.0. an example program in c++ (both source and executable) is provided with the frmware installation that realizes the streaming functionality. possible data sources digitizer algorithmic waveform generation in real-time internal or external hd pc (external or embedded controller) pcie x4 gen2 analog signal M8190A axie chassis infnite playtime (continued) 12 | keysight | M8190A arbitrary waveform generator - data sheet high numbered digital modulations transport more data in the same bandwidth, but tend to produce inaccurate levels and phase angles. detailed testing becomes very important. as a result, it is necessary to create high-quality signals with 14-bit resolution sfdr less than C90 dbc. this excellent sfdr ensures that tones stand out from distortion, even with hundreds of tones. the 2 gsa memory ensures that you can build a strong foundation for highly reliable satellite communications accurate emulation of transmissionsfrom ground station to airborne transceiver to distant ground stationincludes interference, fading and more. headroom multi-tone signal 100 tone from 0 to 2.1 ghz (fs = 7.2 ghz, sin(x)/x compensated) store more than one signal scenario and simply switch be - tween segments via direct memory access and the dynamic sequence control input. the M8190A gives you the versatility to defne new signals proprietary, next-generation and beyond. the 5 ghz mod - ulation bandwidth gives you enough headroom to test and address next-generation modulation schemes. noise-power ratio 13 | keysight | M8190A arbitrary waveform generator - data sheet product structure the awg has a modular product structure and requires an axie chassis (please see page 13) M8190A option software upgradeable comment 1 channel 001 must order either 001 or 002 or lpn (requires customer-provided external clock source) 2 channel 002 2 channels with low phase noise lpn 14 bit/8 gsa/s 1 14b x must order either 14b or 12g or both options 12 gsa/s/12 bit 1 12g x additional dc and ac amplifer 1 amp x digital up-conversion to carrier frequency 1 duc x upgrade from 128 msa to 2 gsa memory per channel 02g x 2 channel version requires option 02g (quantity 2) sequencer 1 seq x fast switching 1 fsw x fast switching for 12 gsa/s requires export control license fsw is included in 14b option iso 17025 1a7 calibration options z540 z54 bundles including axie chassis are available under: M8190A -bu1 5 slot chassis, with embedded pc 16 gb ram and windows embedded standard 7 operating system: 64 bit M8190A -bu2 2 slot chassis (connectivity accessories will be added automatically - choice between desktop and laptop cabling) m8190s multichannel arbitrary waveform generator system (4- & 8 channels are selectable) M8190A-801 microwave phase matched balun, 6.5 ghz, max sma jack M8190A-805 low pass flter, 2800 mhz, max sma, vlf 2850+ M8190A-806 low pass flter, 3900 mhz max sma, vlf 3800+ M8190A-810 cable assembly coaxialC50 , sma to sma, 457 mm length M8190A-811 cable assembly coaxialC50 , sma to sma, 1220 mm length M8190A-815 dynamic control input cable M8190A-820 connector-rf, sma termination, plug straight, 50 , 12.4 ghz, 0.5 w acccessories 1. only quantity 1 is required for 2 channel version 14 | keysight | M8190A arbitrary waveform generator - data sheet the instrument two slot axie chassis with M8190A awg five slot axle chassis with two M8190A awg; can contain an embedded controller challenge the boundaries of test keysight modular products 15 | keysight | M8190A arbitrary waveform generator - data sheet the chassis can be used on the bench or in a rack, occupying only 4u of rack space. keysight computer i/o cards are also available for axie systems. C m9502a-u20: 2-slot axie chassis with usb option C m9505a-u20: 5-slot axie chassis with usb option C m9045b: pcie laptop card adapter gen 1 x4 C m9048a: pcie desktop card adapter gen 2 x8 C y1200b: x4 C x8 pcie cable C y1202a: x8 C x8 pcie cable C m9536a: embedded axie controller C m8192a multi-channel synchronization module for M8190A awg axie the M8190A is a modular instrument packaged in the axie form factor. axie is a new open standard for high-perfor - mance, modular instrumentation, and incorporates the best features of other modular formats including vxibus, lxi and pxi. keysight offers a line of scalable chassis in this powerful format. along with controller options, these axie chassis can form the basis of high-performance, axie-based test systems. two form factors are available: two-slot and fve-slot chassis. these include an embedded axie system module that does not occupy a module slot. in addition, an axie controller is an entire system that can control the awg. this controller consumes one module slot in the chassis. 16 | keysight | M8190A arbitrary waveform generator - data sheet performance specifcation general characteristics digital to analog converter option: C14b resolution 14 bit sample rate 125 msa/s to 8 gsa/s option: C12g resolution 12 bit sample rate 125 msa/s to 12 gsa/s sin (x)/x roll-off (mathematically calculated) option: C14b sin (x)/x (C1 db) 2.1 ghz @ 8 gsa/s sin (x)/x (C3 db) 3.5 ghz @ 8 gsa/s option: C12g sin (x)/x (C1 db) 3.1 ghz @ 12 gsa/s sin (x)/x (C3 db) 5.3 ghz @ 12 gsa/s frequency switching characteristics effective output frequency (f max is determined as f sa,max /2.5) option: C14b f max = 3.2 ghz option: C12g f max = 4.8 ghz effective frequency switching time 1 option: C14b 2 313 ps (= 1/ f max ) option: C12g no option: Cfsw 105 s to 210 s option: C12g option: Cfsw 208 ps (= 1/f max ) 1. determines the minimum time needed to switch between selected segments in sequence mode. 2. option fsw does not affect switching time in 14 bit mode (option 14b). 17 | keysight | M8190A arbitrary waveform generator - data sheet direct out1/direct out2 type of output single-ended 1 or differential, dc-coupled skew between normal and complement outputs 0 ps (nom) skew accuracy between normal and complement outputs 5 ps (typ) impedance 50 ? (nom) amplitude control specifed into 50 ? range, single-ended (dnrz/nrz mode) 6 350 mv p-p to 700 mv p-p resolution 30 v (nom) dc accuracy, offset = 0 v (dnrz/nrz mode) 6 (1.5% + 15 mv) (spec) offset C20 mv to + 20 mv, single-ended into 50 ? offset resolution 60 v (nom) dc offset accuracy 10 mv (spec) common mode offset and differential offset is seperately adjustable connector type sma 1. unused output must be terminated with 50 to gnd. 6. doublet mode does not allow dc signal generation. 18 | keysight | M8190A arbitrary waveform generator - data sheet nrz/dnrz mode bandwidth (3 db) 2 3.0 ghz (typ) bandwidth (5 db) 5.0 ghz (typ) harmonic distortion 7.2 gsa/s 3, 5 C72 dbc (typ, f out = 100 mhz) C68 dbc (typ), f out = 10 mhz ... 500 mhz, measured dc to 3 ghz C60 dbc (typ) , f out = 500 mhz ... 3000 mhz, measured dc to 3 ghz harmonic distortion 12 gsa/s 4, 5 C54 dbc (typ) f out = 100 mhz C50 dbc (typ) f out = 10 mhz ... 5000 mhz, measured dc to 5 ghz sfdr in 14 bit mode 3, 5 (excluding harmonic distortion) in band performance: -90 dbc (typ), fout = 100 mhz, measured dc to 2 ghz -80 dbc (typ), fout = 10 mhz500 mhz, measured dc to 500 mhz -76 dbc (typ), fout = 500 mhz1 ghz, measured dc to 1 ghz -68 dbc (typ), fout = 1 ghz2 ghz, measured dc to 2 ghz -62 dbc (typ), fout = 2 ghz3 ghz, measured dc to 3 ghz adjacent band performance: -80 dbc (typ), fout = 10 mhz500 mhz, measured dc to 1.5 ghz -73 dbc (typ), fout = 500 mhz1 ghz, measured dc to 3 ghz -68 dbc (typ), fout = 1 ghz2 ghz, measured dc to 3 ghz -62 dbc (typ), fout = 2 ghz3 ghz, measured dc to 3 ghz sfdr in 12 bit mode 4, 5 (excluding harmonic distortion) in band performance: -90 dbc (typ), fout = 100 mhz, measured dc to 2 ghz -80 dbc (typ), fout = 10 mhz500 mhz, measured dc to 500 mhz -78 dbc (typ), fout = 500 mhz1 ghz, measured dc to 1 ghz -73 dbc (typ), fout = 1 ghz2 ghz, measured dc to 2 ghz -68 dbc (typ), fout = 2 ghz3 ghz, measured dc to 3 ghz -60 dbc (typ), fout = 3 ghz5 ghz, measured dc to 5 ghz adjacent band performance: -80 dbc (typ), fout = 10 mhz500 mhz, measured dc to 1.5 ghz -73 dbc (typ), fout = 500 mhz1 ghz, measured dc to 3 ghz -68 dbc (typ), fout = 1 ghz2 ghz, measured dc to 5 ghz -64 dbc (typ), fout = 2 ghz3 ghz, measured dc to 5 ghz -60 dbc (typ), fout = 3 ghz5 ghz, measured dc to 5 ghz two-tone imd 3 ttimd = C73 dbc (typ), f out1 = 499.5 mhz, f out2 = 500.5 mhz 2. t r bandwidth: bw = 0.25/t r . 3. sclk = 7.2 gsa/s, amplitude = 700 mv p-p , double nrz mode, excluding f sa C 2 * f out , fsa C 3 * f out . 4. sclk = 12 gsa/s, amplitude = 700 mvp-p, double nrz mode, excluding f sa C 2 * f out , fsa C 3* f out . 5. measured with a balun such as the 5310a from pico second pulse labs plus 10 db attenuator. 6. doublet mode does not allow dc signal generation. 19 | keysight | M8190A arbitrary waveform generator - data sheet doublet mode bandwidth see frequency plot (measured) 8 ghz/12 ghz, single ended harmonics 14 bit doublet mode 1 8 gsa/s f out = 5400 mhz ... 6500 mhz measured 5.4 ghz to 6.5 ghz, no harmonics in this range harmonics 12 bit doublet mode 2 12 gsa/s f out = 8100 mhz ... 9900 mhz, measured 8.1 ghz to 9.9 ghz, no harmonics in this range sfdr in 14 bit doublet mode 1 8 gsa/s (excluding harmonic distortion) C 48 dbc (typ) f out = 5400 mhz ... 6500 mhz, measured 5.4 ghz to 6.5 ghz, single ended sfdr in 12 bit doublet mode 2 12 gsa/s (excluding harmonic distortion) C44 dbc (typ) f out = 8100 mhz ... 9900 mhz, measured 8.1 ghz to 9.9 ghz, single ended 1. sclk = 8 gsa/s, amplitude = 700 mv p-p , double nrz mode, excluding f sa C 2 * f out , f sa C 3 * f out . 2. sclk = 12 gsa/s, amplitude = 700 mv p-p . 0 2 4 6 8 10 12 14 0 500 1000 1500 2000 2500 3000 3500 14 bit / 7.2gsa/s fout [mhz] enob 0 2 4 6 8 10 12 0 1000 2000 3000 4000 5000 6000 12 bit / 12gsa/s fout [mhz] enob 10 10.5 11 11.5 12 12.5 0 200 400 600 800 1000 1200 14 bit ; 2.5gsa/s fout [mhz] enob enob vs. frequency 12 bit ; 12 gsa/s 14 bit ; 7.2 gsa/s 14 bit ; 2.5 gsa/s 20 | keysight | M8190A arbitrary waveform generator - data sheet eye pattern with amplitude 1000 mv with 0 v offset two selectable output paths per channel are available when option amp is installed: 1) dc output path 2) ac output path. amp out1/amp out2 dc output output type single-ended 1 or differential, dc-coupled impedance 50 (nom) amplitude 500 mv pp to 1.0 v pp , single-ended into 50 (overprogramming down to 150 mv possible) amplitude resolution 300 v (nom) dc amplitude accuracy (2.5% + 10 mv) (nom) 2 voltage window C1.0 v to + 3.3 v 3 , single-ended into 50 offset resolution 600 v (nom) dc offset accuracy 2.5% 10 mv (typ) 4% of amplitude (typ) 4 termination voltage window C1.5 v to + 3.5 v 3 termination voltage resolution 300 v (nom) skew between normal and complement outputs 0 ps (nom) skew accuracy between normal and complement outputs 5 ps (typ) rise/fall time (20% to 80%) < 60 ps (typ) 5 jitter (peak-peak) 15 ps (typ) 5 overshoot 5% (typ) 6 connector type sma 1. unused output must be terminated with 50 to the termination voltage. 2. termination voltage = 0 v; adjusted at 23 c ambient temperature, amplitude reduces by 2 mv/c (typ) for ambient temperature above 23 c, amplitude increases by 5 mv/c (typ) for ambient temperature below 23 c 3 . 3. termination voltage window: offset 1v. 4. termination voltage = 0 v. 5. prbs 2 11 C 1, f sa = 12 gsa/s, data rate = 3 gb/s, triggered on sample clock out, nrz mode. 21 | keysight | M8190A arbitrary waveform generator - data sheet ac output output type single-ended, ac coupled front-panel marking: amp out1 for channel 1; amp out2 for channel 2 impedance 50 (nom) amplitude 200 mv pp to 2.0 v pp 1 , single-ended into 50 amplitude resolution 0.25 db (nom) amplitude accuracy 0.5 db 1 (typ) bandwidth (3 db) 50 mhz to 5 ghz (typ) harmonic distortion 2 < C39 dbc (typ), f out = 375 mhz, measured dc to 3 ghz < C37 dbc (typ), f out = 100 mhz 3000 mhz, measured 100 mhz to 3 ghz harmonic distortion 3 < C39 dbc (typ) f out = 375 mhz, measured dc to 5 ghz < C37 dbc (typ) f out = 100 mhz ... 5000 mhz, measured dc to 5 ghz sfdr in 14 bit mode 2 (excluding harmonic distortion) 5 < C60 dbc (typ), f out = 100 mhz 2000 mhz, measured 100 mhz to 3000 mhz < C56 dbc (typ), f out = 2000 mhz 3000 mhz, measured 100 mhz to 3000 mhz sfdr in 12 bit mode 3 (excluding harmonic distortion) < C60 dbc (typ), f out = 100 mhz 2000 mhz, measured 100 mhz to 5000 mhz < C56 dbc (typ), f out = 2000 mhz 3000 mhz, measured 100 mhz to 5000 mhz < C50 dbc (typ), f out = 3000 mhz 5000 mhz, measured 100 mhz to 5000 mhz amplitude fatness 4 100 mhz to 1 ghz (typ), + 1.5 db to C0.5 db 100 mhz to 4 ghz (typ) +/- 0.1 db with calibration / pre-distortion 1 ghz to 4 ghz (typ), C2 db to + 3 db two-tone imd 2 ttimd = C46 dbc (typ), f out1 = 999.5 mhz, f out2 = 1000.5 mhz connector type sma 1. 500 mhz sine wave. 2. sclk = 7.2 gsa/s, amplitude = 1 v p-p , 14 bit mode, double nrz mode, excluding f sa - 2*f out , f sa - 3*f out . 3. sclk = 12 gsa/s, amplitude = 1 v p-p , 12 bit mode, double nrz mode, excluding f sa - 2*f out , f sa - 3*f out . 4. sclk = 12 gsa/s, amplitude = 1 v p-p ; normalized to 100 mhz; 12 bit mode, includes sin (x)/x compensation. 5. sfdr numbers for interpolation mode are the same as the sfdr numbers for 14 bit mode. for further specifcation please see the digital up-conversion specifcation. 22 | keysight | M8190A arbitrary waveform generator - data sheet marker outputs number of markers two markers per channel: sample marker sync marker output type sample marker: single-ended sync marker: single ended sync marker out1/sync marker out2 output impedance 50 ? (nom) timing resolution 1 n sample clock cycles (n = 64 in 12 bit mode; n = 48 in 14 bit mode) level voltage window C0.5 v to 2.0 v amplitude 200 mv pp to 2.0 v pp resolution 10 mv accuracy (10% + 25 mv) (typ) rise/fall time (20% to 80%) 150 ps (nom) width 1 user-defned in multiples of n sample clock cycles (n = 64 in 12 bit mode; n = 48 in 14 bit mode) connector type sma sample marker out1/sample marker out2 timing resolution 1 1 sample clock cycle level voltage window C0.5 v to 2.0 v amplitude 200 mv pp to 2.0 v pp resolution 10 mv accuracy (10% + 25 mv) (typ) rise/fall time (20% to 80%) 150 ps (nom) width 49 sample clocks in 12 bit mode 40 sample clocks in 14 bit mode random jitter 5 ps rms (typ) connector type sma 1. see characteristics digital up-conversion if interpolation is enabled. 23 | keysight | M8190A arbitrary waveform generator - data sheet a common trigger/gate input for both channels is provided on the front panel. this input is used to start a sequence or a scenario. trigger/gate and event input input range C5 v to +5 v threshold range C5 v to +5 v resolution 100 mv sensitivity 200 mv polarity selectable positive or negative drive selectable channel 1, channel 2 or both input impedance 1 k? or 50 ? (nom), dc coupled max toggle frequency 12 bit mode sample clock output frequency divided by 320 14 bit mode sample clock output frequency divided by 240 minimum pulse width asynchronous timing between trigger/gate and sync clock output 1.1 * sync clock period synchronous timing between trigger/gate input and sync clock output see set-up and hold timing under timing characteristics connector type sma 24 | keysight | M8190A arbitrary waveform generator - data sheet a common dynamic control input for both channels is provided on the front panel. the user can select, if the dynamic control input affects none, only channel 1/channel 2 only, or both channels. a detailed description of the dynamic control input includ - ing timing diagram and pin assignment is shown in the M8190A users guide . dynamic control input input signals data[0..12]_in + data_select + load 1 internal data width 19 bit, multiplexed using data_select data_select data_select = low: data[0..12] = data[0..12]_in data_select = high: data[13..18] = data[0..5]_in number of addressable segments or sequences 2 19 = 524 288 data rate dc to 1 mhz set-up time 3.0 ns (`data[0..12]_in, `data_select to rising edge of `load) hold time 0.0 ns (rising edge of `load to `data[0..12]_in, `data_select) minimum 3 latency 4 dynamic control input to direct out 12 bit mode 27520 sample clock cycles (meas) 14 bit mode 20640 sample clock cycles (meas) interpolation mode 5 input range low level 0 v to +0.7 v high level +1.6 v to +3.6 v impedance internal 1 k pull-down resistor to gnd connector 20 pin mini d ribbon (mdr) connector 2 , cable option 815 1. data[012]_in and `data_select will be stored on rising edge of `load signal. 2. manufacturer part number: n10220-52b2pc. manufacturer: 3m. 3. as the current segment (or sequence or scenario) is always completed, the total latency is determined by the duration of the segment (or sequence or scenario). see characteristics of digital up-conversion if interpolation is enabled. 4. see characteristics digital up-conversion if interpolation is enabled. 25 | keysight | M8190A arbitrary waveform generator - data sheet the M8190A can operate synchronously or asynchronously. synchronous operation must be selected to achieve minimum delay uncertainty between trigger input, event, input or dynamic control input and direct out or marker out. for synchronous oper - ation trigger/gate input, event, input or dynamic control must be synchronous to the sync clock output. timing characteristics setup time trigger/gate in to rising edge of sync clock out 10.5 ns (typ) event in to rising edge of sync clock out 10.5 ns (typ) hold time rising edge of sync clock out to trigger/gate in C7.5 ns (typ) rising edge of sync clock out to event in C7.5 ns (typ) delay in 12 bit mode trigger/event in to direct/dc/ac out 10240 external sample clock cycles + 0.5 internal 1 sample clock cycles (nom) sync marker to direct/dc/ac out 0.5 internal 1 sample clock cycles - 4.9 ns (nom) (fsa >= 6.4 gsa/s) 0.5 internal 1 sample clock cycles - 8.0 ns (nom) (fsa < 6.4 gsa/s) delay in 14 bit mode trigger/event in to direct/dc/ac out 7680 external sample clock cycles + 0.5 internal 1 sample clock cycles (nom) sync marker to direct/dc/ac out 0.5 internal 1 sample clock cycles - 4.9 ns (nom) (fsa >= 4.8 gsa/s) 0.5 internal 1 sample clock cycles - 8.0 ns (nom) (fsa < 4.8 gsa/s) sample marker to direct/dc/ac out 0.5 internal 1 sample clock cycles - 1.3 ns (nom) 1. internal sample clock cycles. for defnition of internal sample clock cycles refer to sample clock outputs specifcation. delay uncertainty asynchronous mode 64 external sample clocks in 12 bit mode 48 external sample clocks in 14 bit mode synchronous mode 10 ps (typ) 2 2. the delay accuracy in synchronous mode is equal to the peak-peak jitter between sync clock output and direct out. note: timing characteristics of duc, see digital up-conversion (duc) chapter 26 | keysight | M8190A arbitrary waveform generator - data sheet variable delay in order to compensate for e.g. external cable length differences as well as the initial skew, channel 1 and channel 2 can be independently delayed with a very high timing resolution. setting the variable delay of channel 1 to 10 ps has following effect: C direct out1 (or amp out1, if selected) and sample marker out1 are delayed by 10 ps with respect to following signals: sample clock out, sync marker out1, sync marker out2, direct out2 (or amp out2, if selected), trigger/gate input, event input note: modifying the variable delay of one channel always affects the delay of the analog output and the sample marker of that channel. the variable delay is split into two delay elements: 1. fine delay 2. coarse delay the variable delay is the sum of fne delay and coarse delay. if a de-skew between channel 1 and channel 2 is needed, adjust in the frst step the coarse delay to the optimum position. in the second step, use the fne delay to perfectly align both channels. variable delay variable delay fine delay + coarse delay variable delay range f sa 6.25 gsa/s 0 ps to 10.030 ns 2.5 gsa/s f sa < 6.25 gsa/s 0 ps to 10.060 ns f sa < 2.5 gsa/s 0 ps to 10.150 ns fine delay the fne delay is independently adjustable for channel 1 and channel 2 delay range f sa 6.25 gsa/s 0 ps to 30 ps 2.5 gsa/s f sa < 6.25 gsa/s 0 ps to 60 ps f sa < 2.5 gsa/s 0 ps to 150 ps delay resolution 50 fs accuracy f sa 6.25 gsa/s 10 ps (typ) 2.5 gsa/s f sa < 6.25 gsa/s 20 ps (typ) f sa < 2.5 gsa/s 20 ps (typ) 1. for defnition of internal sample clock cycles, refer to sample clock output specifcation. note for delay in interpolation mode: please see digital up-conversion specifcation. 27 | keysight | M8190A arbitrary waveform generator - data sheet coarse delay the coarse delay is independently adjustable for channel 1 and channel 2 delay range 0 ps to 10 ns, variable delay resolution f sa 6.25 gsa/s 10 ps 2.5 gsa/s f sa < 6.25 gsa/s 20 ps f sa < 2.5 gsa/s 50 ps accuracy f sa 6.25 gsa/s 20 ps (typ) 2.5 gsa/s f sa < 6.25 gsa/s 20 ps (typ) f sa < 2.5 gsa/s 50 ps (typ) when the variable delay is set to 0 ps, the channels operate in coupled mode and the same amplifier path for both channels is selected, the initial skew between channel 1 and channel 2 is 0 ps. initial skew between channel 1 and channel 2 skew 1 0 ps (nom) accuracy 20 ps (typ) 1. coupling on, same amplifer path is selected for channel 1 and channel 2. 28 | keysight | M8190A arbitrary waveform generator - data sheet reference clock output source internal backplane 100 mhz frequency 100 mhz stability 20 ppm (typ.) (see m9502a/m9595a data sheet) aging 1 ppm per year source internal oven-controlled reference oscillator frequency 100 mhz accuracy 0.2 ppm (typ.) stability 0.6 ppm (typ.) aging 0.3 ppm per year (typ.) phase noise C 95 dbc/hz @ 10 hz, C 125 dbc/hz @ 100 hz offset (typ.) phase noise at offsets > 100 hz (refer to phase noise plots on page 30) source external ref clk in frequency 100 mhz amplitude 1 v pp into 50 ? (nom) source impedance 50 ?, ac coupled (nom) connector sma reference clock input input frequencies selectable 1 mhz to 200 mhz, in steps of 1 mhz lock range 35 ppm (typ) frequency resolution 1 mhz input level 100 mv pp to 2 v pp impedance 50 ?, ac coupled (nom) connector type sma sync clock output frequency 14 bit mode sample clock divided by 48 (sample clock source is always channel 1) 12 bit mode sample clock divided by 64 (sample clock source is always channel 1) interpolation mode sample clock divided by (24 x interpolation factor) output amplitude 1.0 v pp (nom) into 50 ? impedance 50 ? nominal, ac coupled connector sma 29 | keysight | M8190A arbitrary waveform generator - data sheet sample clock there are two selectable sources for the sample clock: C internal synthesizer C sample clock input the two channel instrument (option 002) offers the fexibility to independently select the sample clock sources for channel one and channel two. if different clock sources are selected for the channels, both channels operate entirely independently with respect to sample rate and sequencing. internal synthesizer clock characteristics frequency 125 mhz to 12 ghz accuracy 20 ppm frequency resolution 15 digits, e.g. 10 hz at 1 ghz phase noise 1 f sa = 1 ghz < C110 dbc/hz (typ) at 10 khz offset, f out = 125 mhz 2 f sa = 8 ghz < C105 dbc/hz (typ) at 10 khz offset, f out = 1.0 ghz 2 f sa = 12 ghz < C105 dbc/hz (typ) at 10 khz offset, f out = 1.5 ghz sample clock input frequency range 1 1 ghz to 12 ghz input power range +0 dbm to +7 dbm damage level +8 dbm input impedance 50 nom, ac coupled connector type sma 1. the sample clock output is derived from the internal sample clock f sa, i . for f sa, i = 500 msa/s1 gsa/s the sample clock output is twice of f sa, i . for f sa, i = 250 msa/s 500 msa/s the sample clock output is four times f sa, i . for f sa, i = 125 msa/s 250 msa/s the sample clock output is eight times f sa, i . 2. measured at data out. low phase noise clock input (only with option lpn) frequency range 1 ghz to 12 ghz input power range +0 dbm to + 7 dbm damage level +10 dbm input impedance 50 ? nom, ac coupled transition time < 1 ns connector type sma confguring the instrument for low phase noise mode forces the channels to operate in coupled and reduced noise foor mode. in this case the fne delay feature is disabled. the frequency of the external low phase noise clock must be set in the external sample frequency box on the clock panel. all other features of the instrument function the same as for standard operation. 30 | keysight | M8190A arbitrary waveform generator - data sheet phase noise plot with internal sample clock, 7.2 gsa/s, direct output measured with balun phase noise plot with external sample clock, 7.2 gsa/s, direct output measured with balun phase noise plot with internal sample clock, 12 gsa/s, direct output measured with balun phase noise plot with external sample clock, 12 gsa/s, direct output measured with balun phase noise these plots show the typical phase noise using the delay adjustment 31 | keysight | M8190A arbitrary waveform generator - data sheet phase noise with internal sample clock 7.2 gsa/s, direct out measured with balun and reduced noise foor phase noise with external sample clock 7.2 gsa/s, direct out measured with balun and reduced noise foor phase noise with internal sample clock 12 gsa/s, direct out measured with balun and reduced noise foor phase noise with external sample clock 12 gsa/s, direct out measured with balun and reduced noise foor these plots show the typical phase noise without using the delay adjustment 32 | keysight | M8190A arbitrary waveform generator - data sheet option lpn signifcantly improves the arbitrary wave - form generator phase noise performance. with option lpn a customer-supplied external synthesizer (1-12 ghz range) must be connected. the measurements in the following graph were performed using a keysight proprietary external oscillator and measured using a keysight e5052b signal source analyzer. - 170 - 160 - 150 - 140 - 130 - 120 - 110 - 100 - 90 10 0 10 00 10 000 10 0000 10 0000 0 10 0000 00 10 0000 000 p h as e n o i s e ( d b c / h z) o f f s e t f r e q u e n c y ( h z) 18 7, 5 mh z s in e w a v e - s a m p l e c lo c k 7, 2g h z 37 5 mh z s in e w a v e - s a m p le c lo c k 7, 2g h z 75 0 mh z s in e w a v e - s a m p le c lo c k 7, 2g h z 15 00 mh z s in e w a v e - s a m p le c lo c k 7 , 2 g h z 3000 mh z s in e w a v e - s a m p le c lo c k 7 , 2 g h z 30 00 mh z s in e w a v e - s a m p le c lo c k 7 , 2 g h z phase noise this plot show the typical phase noise with the low phase noise option (opt. lpn) external sample clock source M8190A (lpn opt.) 33 | keysight | M8190A arbitrary waveform generator - data sheet the source for the sample clock output can be either the internal synthesizer or the sample clock input. the source for the sam - ple clock output can be independently selected from the sample clock. for example, it is possible to operate the sample clock output from the internal synthesizer at f 1 to clock the dut; as an example, f 1 may be divided by two by the dut. in this case, f 1 /2 can be connected to the sample clock input as to be used as the sample clock of the M8190A. sample clock output source selectable, internal synthesizer or sample clock input frequency range 1 1 ghz to 12 ghz output amplitude 400 mvpp (nom), fx input impedance 50 ? (nom), ac coupled transition time (20% to 80%) 20 ps (typ) connector sma the following table shows which sample clock out routings are possible if coupling is on. coupling = on channel 1 external clock internal clock 12 bit 14 bit 12 bit 14 bit channel 2 external clock 12 bit external clock 14 bit external clock internal clock 12 bit internal clock 14 bit internal clock the following table shows which sample clock out routings are possible if coupling is off . coupling = off channel 1 external clock internal clock 12 bit 14 bit 12 bit 14 bit channel 2 channel 2 operate with external clock 12 bit external or inter - nal clock external or inter - nal clock external or inter - nal clock external or inter - nal clock 14 bit external or inter - nal clock external or inter - nal clock external or inter - nal clock external or inter - nal clock channel 2 operate with internal clock 12 bit external or inter - nal clock external or inter - nal clock external or inter - nal clock 14 bit external or inter - nal clock external or inter - nal clock external or inter - nal clock 1. the sample clock output is derived from the internal sample clock f sa , i . for f sa, i = 500 msa/s1 gsa/s the sample clock output is twice of f sa, i . for f sa, i = 250 msa/s 500 msa/s the sample clock output is four times f sa, i . for f sa, i = 125 msa/s 250 msa/s the sample clock output is eight times f sa, i . 34 | keysight | M8190A arbitrary waveform generator - data sheet coupling between channel 1 and channel 2 the two channel instrument (option 002) has two distinct modes of operation: coupling = off and coupling = on. coupling = off C the two channels operate entirely independently C the channels may run at different sample clock rates C the channels may run from the same clock source (internal or external) C the channels may operate from different clock sources (internal or external) C the channels are being started asynchronously C following parameters can be changed individually per channel: C frequency C amplitude, offset C amplifer path C waveform C sequence C trigger mode (auto, triggered, gated) C start/stop (programming/programming complete) C 12 bit or 14 bit mode (see limitations in table below) C dynamic sequencing on/off C following parameters can only be changed for both channels: C none the following table shows which mode combinations are available, if coupling is off . coupling = off channel 1 external clock internal clock 12 bit 14 bit 12 bit 14 bit channel 2 external clock 12 bit available available available available 14 bit available available available available internal clock 12 bit available available available 14 bit available available available 35 | keysight | M8190A arbitrary waveform generator - data sheet coupling = on C the two channels start synchronously; the clock source for channel 1 and channel 2 is the same C the fx delay between channel 1 and channel 2 is the same C following parameters can be changed individually per channel: C amplitude, offset C amplifer path C waveform C sequence C trigger mode C variable delay C dynamic sequencing on/off C following parameters can only be changed for both channels: C frequency C clock source internal or external C start/stop (programming/programming complete)/abort C 12 bit or 14 bit mode C notes: C when changing from coupling = off to coupling = on, setting of above parameters from channels 1 are being transferred to channel 2 C following remote commands that are being sent to channel 1 (or ch2), affect channel 2 (or ch1) as well: frequency, bit mode, start/stop, trigger, event, dynamic segment/sequence select and enable C to allow full synchronous operation between channel 1 and channel 2, start/stop, trigger, event, dynamic segment/se - quence select and enable always affect both channels; this is valid if the signals are generated at the hardware inputs or by software the following table shows which mode combinations are available, if coupling is on . coupling = on channel 1 external clock internal clock 12 bit 14 bit 12 bit 14 bit channel 2 external clock 12 bit available 14 bit available internal clock 12 bit available 14 bit available 36 | keysight | M8190A arbitrary waveform generator - data sheet internal trigger generator frequency range 100 mhz to f max f max sync clock out frequency divided by 5 e.g.: 12 bit mode, f sa = 12 ghz: f max = 12 ghz/64/5 = 37.5 mhz e.g.: 14 bit mode, f sa = 8 ghz: f max = 8 ghz/48/5 = 33.3 mhz frequency resolution 100 mhz sequencer the standard confguration of the M8190A offers: C continuous, self armed mode with one segment C triggered, self armed with one segment C gated, self armed with one segment sample memory standard option 02g 12 bit mode option 02g 14 bit mode 128 msa per channel 2048 msa per channel 1536 msa per channel option seq offers the enhanced sequencing functionality described below minimum segment length 320 samples in 12 bit mode; 240 samples in 14 bit mode waveform granularity 64 samples in 12 bit mode; 48 samples in 14 bit mode segments 1 to 512 k (2 19 ) unique segments the maximum length of a segment can be up to 2048 msa. a single segment can consist of multiple sections that are downloaded individually to the instrument and are linked inside the m81190a to form a segment. segment loops a total of 4 billion (2 32 ) loops can be defned for each segment sequences up to 512 k (2 19 ) total unique waveform sequences can be defned. a sequence is a continuous series of segments. sequence table entries up to 512 k segment table entries can be defned as the sum of entries for all sequence tables sequence loops a total of 4 billion (2 32 ) loops can be defned for each sequence scenarios scenario table entries up to 512 k (2 19 ) scenarios can be defned. a scenario is a continuous series of sequences up to 512 k (2 19 ) loop can be defned for each scenario each sequence in a scenario can be looped up to 4 billion (2 32 ) times. switching between different scenarios is controlled by software. dynamic scenario control a parallel input bus is used to externally switch between scenarios. jumps between scenar - ios can be immediate (current scenario is interrupted) or synchronous (current scenario is completed before jumping to the next scenario). 37 | keysight | M8190A arbitrary waveform generator - data sheet digital up-conversion in a two-channel instrument, each channel has a separate digital up-conversion engine. all parameters (e.g. carrier frequency, ampli - tude, waveforms, etc.) can be set independently. if the two channels are used in coupled mode, they are fully phase coherent. characteristics description sampling rate 1000 msa/s C 7200 msa/s carrier frequency range 0 hz ... 12 ghz (observe frequency response and sin x/x roll-off) resolution sample clock/2 72 phase range 0 C 360o phase resolution 0.002o amplitude range 0 to 100% amplitude resolution 20,000 steps frequency sweep rate 2 hz/hour to 40 ghz/s sample memory depth 768 m iq sample pairs granularity 24 minimum segment length for data segments 120 iq pairs minimum segment length for confguration segments 240 iq pairs vertical resolution iq 15 bit samples for i and q vertical resolution dac 14 bit independent of 12 bit mode and 14 bit mode interpolation factors x3, x12, x24, x48 sfdr and harmonics see specs in 14 bit mode mode dependent modulation bandwidth interpolation factor max. input sample rate max. modulation bandwidth x3 2400 msa/s 1920 mhz x12 600 msa/s 480 mhz x24 300 msa/s 240 mhz x48 150 msa /s 120 mhz modulation bw ripple 0.8 x fs, where fs is the input i/q sample rate, max 1 db delay (fsa = 1 gsa/s to 7.2 gsa/s) trigger/event in to direct out interpolation factor * 3840 sample clock cycles + 4.5 sample clock cycles C 5.3 ns (nom) trigger/event in to dc out interpolation factor * 3840 sample clock cycles + 4.5 sample clock cycles C 4.6 ns (nom) trigger/event in to ac out interpolation factor * 3840 sample clock cycles + 4.5 sample clock cycles C 4.5 ns (nom) delay sync marker out to direct out 4.5 sample clock cycles - 8.0 ns (nom) delay sample marker out to direct out C1.3 ns + 4.5 sample clock cycles (typ) sync clock output sample clock divided by (24 x interpolation factor) minimum latency interpolation factor * 10320 sample clock cycles (meas) trigger/gate and event input maximum toggle frequency sample clock output frequency divided by (120 * interpolation factor) 38 | keysight | M8190A arbitrary waveform generator - data sheet marker sync marker timing resolution 24 input iq sample pairs width multiples of 24 input iq sample pairs sample marker timing resolution 1 input iq sample pair width interpolation factor width in dac output samples x3 24 x12 24 x24 24 x48 48 sample marker output delay marker to data is 3.5 sample clock cycles memory management the iq baseband waveform and waveform attributes such as carrier frequency, phase, and amplitude are stored independently. thus, repetitive waveforms with different attributes can be stored much more effciently. attributes are stored in tables. the sequencer connects waveform and its attributes at runtime. carrier frequency and amplitude can also be controlled by software. table sizes amplitude table 32 k frequency table 32 k action table 32 k actions include: set carrier frequency, set amplitude, set phase, reset phase, phase bump, set sweep rate, sweep run, sweep stop 39 | keysight | M8190A arbitrary waveform generator - data sheet general power consumption 210 w (nom, 12 gsa/s operation) operating temperature 0 c to 40 c operating humidity 5% to 80% relative humidity, non-condensing operating altitude up to 2000 m storage temperature C40 c to 70 c stored states user confgurations and factory default power on state default interface to controlling pc pcie (see axie chassis specifcation) form factor 2-slot axie dimensions (wxhxd) 60 mm x 322.5 mm x 281.5 mm weight 4.9 kg safety designed to iec61010-1, ul61010, csa22.2 61010.1 certifed emc tested to iec61326 warm-up time 30 min calibration interval 2 years recommended warranty 3 years standard cooling requirements when operating the M8190A choose a location that provides at least 80 mm of clearance at rear, and at least 30 mm of clearance at each side. download times download times: using ivi-com driver 1 m samples 3 ms (meas) 128 m samples 350 ms (meas) 512 m samples 1.4 s (meas) 2 g samples 6 s (meas) 40 | keysight | M8190A arbitrary waveform generator - data sheet defnitions specifcation (spec) the warranted performance of a calibrated instrument that has been stored for a minimum of 2 hours within the operating temperature range of 0 c to C 40 c and after a 45-minute warm up period. within 10 c after autocal. all specifcations include measurement uncertainty and were created in compliance with iso-17025 methods. data published in this document are specifcations (spec) only where specifcally indicated. typical (typ) the characteristic performance, which 80% or more of manufactured instruments will meet. this data is not warranted, does not include measurement uncertainty, and is valid only at room temperature (approximately 23 c). nominal (nom) the mean or average characteristic performance, or the value of an attribute that is deter - mined by design such as a connector type, physical dimension, or operating speed. this data is not warranted and is measured at room temperature (approximately 23 c). measured (meas) an attribute measured during development for purposes of communicating the expected performance. this data is not warranted and is measured at room temperature (approximately 23 c). accuracy represents the traceable accuracy of a specifed parameter. includes measurement error and timebase error, and calibration source uncertainty. software operating systems supported operating system is windows 7 (32 or 64 bit), windows 8 (32 or 64 bit), windows 8.1 (32 or 64 bit), windows 10 (32 or 64 bit) soft front panel a graphical user interface (gui or soft front panel) is offered to control all functionality fo the instrument. it contains screens for controlling clock, outputs, marker, trigger, sequencer, importing waveforms and creating standard waveforms. scpi language remote control via scpi ivi-driver an ivi-com driver as well as ivi-c driver are available as part of the M8190A software mykeysight www.keysight.com/find/mykeysight a personalized view into the information most relevant to you. www.axiestandard.org advancedtca ? extensions for instrumentation and test (axie) is an open standard that extends the advancedtca for general purpose and semiconductor test. keysight is a founding member of the axie consortium. atca ? , advancedtca ? , and the atca logo are registered us trademarks of the pci industrial computer manufacturers group. three-year warranty www.keysight.com/find/threeyearwarranty keysights committed to superior product quality and lower total cost of ownership. keysight is the only test and measurement company with three-year warranty standard on all instruments, worldwide. and, we provide a one-year warranty on many accessories, calibration devices, systems and custom products. keysight assurance plans www.keysight.com/find/assuranceplans up to ten years of protection and no budgetary surprises to ensure your instruments are operating to specification, so you can rely on accurate measurements. pci-sig ? , pcie ? and the pci express ? are us registered trademarks and/or service marks of pci-sig. www.keysight.com/find/modular www.keysight.com/find/34980a from hewlett-packard through agilent to keysight for more than 75 years, weve been helping you unlock measurement insights. our unique combination of hardware, software and people can help you reach your next breakthrough. unlocking measurement insights since 1939. 1939 the future for more information on keysight technologies products, applications or services, please contact your local keysight office. the complete list is available at: www.keysight.com/find/contactus americas canada (877) 894 4414 brazil 55 11 3351 7010 mexico 001 800 254 2440 united states (800) 829 4444 asia pacifc australia 1 800 629 485 china 800 810 0189 hong kong 800 938 693 india 1 800 11 2626 japan 0120 (421) 345 korea 080 769 0800 malaysia 1 800 888 848 singapore 1 800 375 8100 taiwan 0800 047 866 other ap countries (65) 6375 8100 europe & middle east austria 0800 001122 belgium 0800 58580 finland 0800 523252 france 0805 980333 germany 0800 6270999 ireland 1800 832700 israel 1 809 343051 italy 800 599100 luxembourg +32 800 58580 netherlands 0800 0233200 russia 8800 5009286 spain 800 000154 sweden 0200 882255 switzerland 0800 805353 opt. 1 (de) opt. 2 (fr) opt. 3 (it) united kingdom 0800 0260637 for other unlisted countries: www.keysight.com/find/contactus (bp- 02-10-16) dekra certified iso9001 quality management system www.keysight.com/go/quality keysight technologies, inc. dekra certified iso 9001:2015 quality management system 41 | keysight | M8190A arbitrary waveform generator - data sheet this information is subject to change without notice. ? keysight technologies, 2014 C 2016 published in usa, february 22, 2016 5990-7516en www.keysight.com |
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