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            上海航欧机电设备有限公司 > 产品分类 > 传动与控制 > Neff

            Neff

            Neff工厂授权上海航欧中国区代理

            上海航欧代理neff采板卡?neff机箱(含电源)?neff逻辑板卡

            Neff工厂授权上海航欧中国区代理

             

             

            The Neff Advantage

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            Since 1956

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            Located in Monrovia, California not far from Pasadena, NEFF Instruments has been a leading manufacturer of high performance data acquisition equipment since its founding in the mid 1950s by Glyn Neff.

            System 470

            System 620/600

            System 471

            System 472

            System 730

            System 495

            System 470
            Function Cards

            DA23350

            DA23535

            6715450306

            KAR-3-3205 KGF-N-3205/Tr 36×6

            TGS-RPTS-Tr-36×6-LH-K82-A-462-0

            89026352

            9002335012

            470100

            9002335012

            90023535

            470051

            TGS-RPTS-TR-28X5-T5-RH-1050

            • 470010?? 32-Bit TTL Input
            • 470011?? 16-Bit Isolated Digital Input-AC/DC Signals, 1000V isolation.
            • 470012?? 2-CH Freq. or Period Input
            • 470013?? 32-Bit TTL Input/Output
            • 470014?? ARINC-429 Controller
            • 470015?? 2-CH Widerange Freq. or Period Input – programmable modes.
            • 470030?? 32-Bit TTL Output
            • 470031?? 8-Point Form ‘C’ Relay Output – latching relays
            • 470050?? 16-CH Differential Multiplexer – 10 Hz filter per channel
            • 470051?? 16-CH Differential Mux w/Open Source-w/filter
            • 470052?? 16-CH Differential Mux w/4-20mA Input- w/filter
            • 470054?? 4-CH Bridge Conditioner/Mux – w/multiplexer, amp & filter
            • 470055?? 4-CH RTD Conditioner/Mux-w/multiplexer, amp & filter
            • 470056?? 16-CH Transformer-coupled Mux- 1000V CMV
            • 470059?? 16-CH Multiplexer, Direct Input- w/o filter
            • 470070?? 2-CH 16-Bit DAC Output
            • 470071?? 16-CH 12-Bit DAC Output
            • 470081?? 16 Channel Isothermal Connector
            • 470085?? Calibration Card
            System 471
            Function Cards
            • 470010?? 32-Bit TTL Input
            • 470011?? 16-Bit Isolated Digital Input-AC/DC Signals, 1000V isolation.
            • 470012?? 2-CH Frequency or Period Input
            • 470013?? 32-Bit TTL Input/Output
            • 470014?? ARINC-429 Controller
            • 470015?? 2-CH Widerange Frequency or Period Input -programmable
            • 470030?? 32-Bit TTL Output
            • 470031?? 8-Point Form ‘C’ Relay Output- latching relays
            • 470052?? 16-CH Differential Mux w/4-20mA Input – w/filter
            • 470058?? 4-CH Isolation Amplifier
            • 47036X?? Mode Cards For Iso-Amp
            • 470059?? 16-CH Multiplexer, Direct Input- w/o filter
            • 470070?? 2-CH 16-Bit DAC Output
            • 470071?? 16-CH 12-Bit DAC Output
            System 472
            Function Cards
            • 472010?? 32-Bit TTL Input
            • 472011?? 16-Bit Isolated Digital Input-AC/DC Signals, 1000V isolation.
            • 472012?? 2-CH Frequency or Period Input
            • 472013?? 32-Bit TTL Input/Output
            • 472015?? 2-CH Widerange Frequency or Period Input – programmable
            • 472030?? 32-Bit TTL Output
            • 472031?? 8-Point Form ‘C’ Relay Output – latching relays
            • 472052?? 16-CH Differential Mux w/4-20mA Input – w/filter
            • 472059?? 16-CH Multiplexer, Direct Input – w/o filter
            • 472060?? 16-CH Programmable Gain Amp/Filter
            • 472070?? 2-CH 16-Bit DAC Output
            • 472071?? 16-CH 12-Bit DAC Outpu
            • 472081?? 16 Channel Isothermal Connector
            System 495
            Function Cards
            • 495200?Input/Control Assembly with SCSI Interface (16 slots)
            • 495101?Expansion Input Assembly (16 Slots)
            • 495070?250 kHz Prog. Amp/Filter with 16-bit ADC and 1 meg Ram
            • 495071?250 kHz Prog. Amp/Filter with 16-bit ADC and 16 meg Ram
            • 495072?250 kHz Prog. Amp/Filter with 16-bit ADC and 32 meg Ram
            • 495073?250 kHz Prog. Amp/Filter with 16-bit ADC and 64 meg Ram
            • 495080?1 MHz Prog. Amp/Filter with 14-bit ADC and 1 meg Ram
            • 495081?1 MHz Prog. Amp/Filter with 14-bit ADC and 16 meg Ram
            • 495082?1 MHz Prog. Amp/Filter with 14-bit ADC and 32 meg Ram
            • 495083?1 MHz Prog. Amp/Filter with 14-bit ADC and 64 meg Ram
            • 495085?8 Input Trigger Module
            System 620/600
            Function Cards
            • 620650?– 4 Channel Preamp with 2-Pole Butterworth Filter
            • 620654?– 4 Channel Preamp with 6-Pole Butterworth Filter
            System 730
            Function Cards
            • The NEFF System 470 (S470) DAS is a complete, low cost moderate-speed DAS for use in computer-based applications. The S470 is designed primarily for computer automated data acquisition in test facilities, laboratories and industrial plants or wherever a moderate-speed DAS is required.
            • The S470 is designed to accept analog inputs ranging from 5mV to 10.24V full scale in 12 programmable steps. Signal conditioning for sensors such as strain gages, RTDs, potentiometers and thermocouples is supplied by standard S470 function cards thus eliminating the need for external sources. Other function cards support digital I/O, frequency measurement and analog output.
            • S470 consists of a 7-inch high, 19-inch wide enclosure with power supply, backplane wiring, I/O Control Logic printed circuit card, Analog Subassembly printed circuit card and 16 I/O card slots that accept any combination of S470 function cards. A Control/Display panel is optional and an expansion assembly is available to extend function card capacity to 32. The maximum number of channels or data points to be serviced depends on the type of function cards used. Thirty-two 16-channel Multiplexer cards, for example, provide 512 channels of analog input while a full complement of 32-bit TTL input cards accommodate 1024 single data points.
            • The Series 600 is NEFF’s top-of-the-line data acquisition system providing the utmost in performance, accuracy and convenience. Featuring leading-edge technology and innovative design, Series 600 brings extensive automation and complete programmability to the testing laboratory.
            • The key to Series 600’s high performance is the effective combination of fully programmable preamp/filters, programmable post amplifier, sophisticated microprocessor-controlled calibration circuits and the amplifier-per-channel data acquisition technique that realizes the lowest noise level and highest common mode rejection obtainable in a data acquisition system.
            • Programmable Gain Over the Full Dynamic Range
              With programmable gain, test setup time is greatly reduced as is the bother and confusion of manual switch settings. In Series 600 the range of each channel is programmable from +/-5mV full scale to +/-10.24V full scale in 12 binary steps.
            • Preamps Include Programmable Filter
              Two types of input preamps are available in Series 600 to allow both static and dynamic measurements. Both have programmable filter cutoff frequencies of 1Hz, 10Hz, 100Hz and 1kHz. Low-level differential preamps (620650 and 620654) have 2-pole and 6-pole Butterworth filters, respectively.
            • The sample and hold preamp (620654) permits simultaneous sampling of multiple low-level input channels and is used where minimum channel-to-channel skew is required. both preamps have fully guarded inputs and operate from grounded or floating signal sources.
            • Automatic Calibration
              On command the internal microprocessor takes over control of the Series 600 and begins a sequence of steps to derive and store calibration factors for each channel. The calibration data is stored in on-board memories and during run mode are summed with the post amplifier output voltage to obtain fully calibrated signals for conversion by the ADC.
            • The automatic calibration procedure results in static accuracy of (0.02%

             

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