0
登录后你可以
  • 下载海量资料
  • 学习在线课程
  • 观看技术视频
  • 写文章/发帖/加入社区
创作中心
发布
  • 发文章

  • 发资料

  • 发帖

  • 提问

  • 发视频

创作活动
7075

7075

  • 厂商:

    ASM-SENSOR

  • 封装:

  • 描述:

    7075 - WAVEFORM GENERATOR - ASM GmbH

  • 数据手册
  • 价格&库存
7075 数据手册
2000 7075 WAVEFORM GENERATOR SIGNAL SOURCE Internal Sweep Sequence Functions Arbitrary Waveform Generator with Four Independently Controllable Channels The 7 075 WAVEFORM GENERATOR includes both function generator and arbitrary waveform generator capabilities. The function generator provides 8 standard waveforms such as sine and square waves. Basic capabilities of the custom waveform generator include long-duration, high-quality waveform output from a 128,000-word memory, 10 MHz clock rate and 16-bit resolution. The function generator and arbitrary waveform output functions can be swept according to various parameters such as frequency and amplitude, making this waveform generator ideal for simulating multiple signal sources for evaluation. ISO14001 JQA-E-90091 http://www.hioki.co.jp/ HIOKI company overview, new products, environmental considerations and other information are available on our website. 1 Even for Complex Signals, Evaluation is Made Easy Features 1. Multiple Channels Four channels (7075) or two channels (7075-01) are provided in a compact, lightweight unit. Multi-channel evaluations such as 3-phase motor simulations can be produced with a single device. 2. Channel-Independent Operation Waveform selection and various settings, including custom waveform sampling clock frequency and sweep control can be set and activated independently for each channel. 3. Simple Operation Simple, direct operation is provided by a touch panel user interface. 4. Easy to Use with Actual Waveforms Waveforms measured with a MEMORY HiCORDER can be downloaded to 3.5" floppy disk or GP-IB. Amplitude and time axes data are downloaded together, so the actual waveforms can be reconstructed. Waveforms and settings can also be saved. The floppy drive is compatible with 1.44-MB MS-DOS format. 5. Synchronized Drive Capability With one unit configured as the master, up to four units (16 channels) can be driven synchronously. 6. Timing Simulation by External Trigger Each channel can be independently triggered by terminals on the rear, so various timings can be simulated. 7. Bundled Waveform Creation Software The bundled 7 990 WAVEFORM CREATION SOFTWARE creates waveforms in the Windows ™ environment on a PC. Capabilities range from custom waveform design to processing actual waveform simulations. Created waveforms are transferred to the 7075 by floppy disk or RS-232C interface. 8. External Control External control can be provided through the GP-IB interface. Waveforms from a MEMORY HiCORDER can also be downloaded by GP-IB. 1 2 3 4 5 6 7 8 Basic Features q Large 128,000-Word/Channel Memory The large arbitrary waveform memory consists of 128,000 words per channel. Even at the fastest 10 MHz clock, 12.8 ms custom waveforms can be output. q 16-Bit Voltage Axis Resolution, Up to 10 MHz Clock The 16-bit resolution on the voltage axis and 10 MHz maximum clock provide faithful reproduction of actual waveforms and high-quality custom waveform output capability. Three output ranges (0.1, 1 and 10V peak) are provided. q Sweep Sequence Functions Installed Frequency, amplitude and offset can be swept simultaneously, and combinations of sweep conditions in up to 128 steps allow easy generation of complex signals for evaluation. q Eight Basic Waveforms Built In Eight basic waveforms: sine, square, pulse, triangle, ramp up, ramp down, noise and DC are selectable in the function generator mode. Eight waveforms can also be stored in the arbitrary waveform mode, allowing quick handling of all types of waveforms. 7075 Basic Features Function Generator Mode • • Arbitrary Waveform Mode • • 8 basic waveform types Sine and square waves from ±10V 10 mHz to 10 MHz Output Triangle, ramp and pulse waves from 10 mHz to 200 kHz Long-duration memory of 128,000 words/ch 16-bit voltage axis resolution • 2 Easy Touch Panel Operation Operating Screen Examples 1 Output Settings Screen The settings for output waveforms on every channel are simultaneously displayed. Sweep Setup Screen A waveform is selected and related sweep selections such as frequency and amplitude can then be set, as well as basic setting of non-sweep functions. Sweep Table Editing Screen Sweep conditions such as amplitude and frequency for each item can be set, for sequences of up to 128 steps. Waveform Selection Screen The desired standard function generator waveform can be selected from sine wave, square wave, etc., or a list of arbitrary waveforms can be selected. Voltage V 5 2 0 -2 -5 3s 2s 1s 2s 500ms RUN Time 2 Waveform Input Screen Up to 8 waveforms can be entered and stored in the unit. Arbitrary Waveform List Screen All waveforms entered in the 7075 are displayed. Arbitrary Waveform View Screen Displays details of an entered waveform. The waveform image, amplitude, output time and other information can be confirmed. 3 Floppy Disk/Interface Setup Screen Sets up the floppy disk, GP-IB and RS-232C interfaces. Floppy Disk Save/Load Setup Screen Waveforms can be saved and floppy disk conditions can be set, or files loaded into the unit. System Screen 4 Configure basic operating settings of the unit. 3 High Performance in a Compact Package 7075 Application Functions q Sweep Sequence Functions Waveform amplitude, frequency, offset and duty cycle* can be swept simultaneously, so multi-pattern signals can be easily generated. * Duty cycle setting applies only to pulse waveforms. • Table-style entry of up to 128 steps • Settable step loop time • Sequence control by external signals • Long-duration sweep and high-speed data refresh Sweep time of 0.01 ms to 1000 s Maximum data refresh speed of 1 µs Example of simultaneous amplitude and frequency sweep setting Output waveform example CH1: Simultaneous sweep of amplitude and frequency of a sine wave CH2: Duty cycle sweep of a pulse wave q Trigger Functions When Hold is enabled for a sequence loop, the Hold can be canceled by the trigger. Specifically, an external trigger can be applied to each channel independently, so variations can be imposed on the output according to custom timing differences between channels. This function is useful in, for example, an automobile ABS simulation in which signals for the four wheels can be controlled independently. TRIG CH 1 TRIG CH 2 TRIG CH 3 TRIG CH 4 Output controlled by custom timing Output timing can be controlled by trigger input for each channel at the external control terminals on the rear panel. q Low-Pass Filter Functions 14 types of low-pass filter with 1-2-5 progression are built in. Device testing capabilities are enhanced by selectably filtering the test signal, such as for noise tests. 14 types of low-pass filter 4 Download Waveforms or Create on a PC Custom Waveform Input q Downloading from a MEMORY HiCORDER Actual measured waveforms saved in a HIOKI MEMORY HiCORDER can be downloaded by floppy disk or GP-IB. All data types are loaded, so the actual measured waveforms are accurately reconstructed. Other data besides the waveform image and amplitude- and timeaxis information is downloaded, so the regeneration process is straightforward. q Converts Text Data to Waveforms Waveforms stored as CSV data can be reconstructed on the 7075. Here is an example of waveform data in Excel ™ that was saved as text data, loaded into the 7075 and reconstructed. Floppy or GP-IB Floppy or RS-232C Waveforms created on the PC See the list of related products on page 8 for downloadable MEMORY HiCORDER. 7990 WAVEFORM CREATION SOFTWARE q Waveform Creation in the Windows Environment Install the bundled 7 990 WAVEFORM CREATION SOFTWARE on your PC to easily create waveforms by entering either waveforms or mathematical functions. Actual waveform data can also be downloaded and processed, so noise can be added and multiple complex waveforms can be quickly created. ™ s 7990 WAVEFORM CREATION SOFTWARE Functional Specifications qFeatures • Create waveforms by entering functions • Standard waveform entry (sine, triangle, square, ramp, sin(x)/x, etc.) • Enter waveforms by drawing free-hand curves and straight lines • Edit entered waveforms (cut, copy, paste, clear, etc.) • Modify entered waveforms (width, height, amplitude, offset, etc.) • Calculate with entered waveforms (add, subtract, multiply, etc.) • Magnify, reduce and scroll waveform displays • Save and load created waveforms • Transfer waveform data (RS-232C) qOperating Environment Operating Systems: Windows95™, WindowsNT™ 4.0 Memory: at least 16 MB Hard Disk: at least 4 MB free space 5 Effective Simulations with Four Independently Controlled Channels Applications Slip q ABS Simulation The external trigger feature can be used to control the output timing of each channel, to simulate signals from the four wheels independently. Smoothly increasing and decreasing speed waveforms can be easily output with the sweep functions. Independent 4-wheel ABS simulation Vehicle speed Wheel speed Brake pressure Time q 3-Phase Motor Simulation A 3-phase waveform controlled at 120 ˚ p hase can be simulated using 3-channel simultaneous output. Simulations such as abnormal waveforms and noise can be applied to each phase independently. 3-Channel Output Three-phase electric power simulation Three-phase momentary drop-out waveform example q Other Simulations Automotive, Machinery: Engine electronic control evaluation, vibration testing, etc. Control simulations requiring high precision such as servo motors. Home Appliances, OA Devices: Simulation of power source anomalies such as harmonics and noise. Test signals for inverter control devices, motor speed-up and slow-down tests for copy machines, etc. Audio, Communications: Frequency characteristic testing by sweep, and transmit modulation testing of radio equipment, phase characteristic testing, etc. Medicine, Biology: Evaluation signals for medical devices such as EKG and EEG, living tissue signal simulations Motor speed-up and slow-down sweep example for copy machine Motor rotation speed Speed-up Steady speed Slow-down Additional slow-down Time q Output Waveform Examples Parameters such as linear sweep and phase control of a waveform can be adjusted within the 7 075 , but more complex waveform processing and coupling of different waveforms types requires the bundled 7990 Waveform Creation Software to carry out the processing on the PC, allowing output of various types of waveforms. Damping Waveform Example AM Modulation Waveform Example sin(x)/x Waveform Example Frequency Sweep Waveform Example Offset Sweep Waveform Example 6 Specifications Number of Channels: Output Functions: Display: Language: External Memory System: (23˚C ± 5˚C/73˚F ± 9˚F, after 30 minutes warmup) -1. General Specifications 4 (7075), 2 (7075-1) Function Generator, Arbitrary Waveform Generator (settable for each channel) 5.7" LCD (with Touch Panel) Japanese or English selectable 3.5" Floppy Drive Storage Capacity: 1.44 MB, 1.2 MB and 720 kB compatible (1.2 MB format is non-standard) Data format: MS-DOS™ format GP-IB (IEEE 488.1 compliant. Refer to IEEE 488.2) RS-232C (Dsub 9-pin connector, 19200, 9600 and 4800 bps speed, for waveform data transfer only -- not for control) Power (cumulative)- single pulse to chassis/ AC 1.5 kVrms for 1 min. 25 mA Environmental Conditions: (non-condensating) Interfaces: Power: Maximum Rated Dissipation: Dimensions and mass : Accessory: Conforming Standards: Operating temperature: 10 to 40˚C (50 to 104˚F) 85% RH or less Storage temperature: -10 to 50˚C (14 to 122˚F) 85% RH or less Operating location: Indoors, at less than 2,000m (6,562-ft.) altitude Auto selects 100, 120, 200 or 230 VAC (±10%), 50/60 Hz 120 VA 345W × 130H × 286D mm, 7.8 kg (7075) / 7.5 kg (-01) 13.6" W × 5.1" H × 11.3" D, 275 oz. (7075) / 265 oz. (-01) 7990 WAVEFORM CREATION SOFTWARE (3 floppy disks) EMC EN55011:1991+A1:1997+A2:1996 EN50082-1:1992 Safety EN61010-1:1993+A2:1995 Pollution level 2, Overvoltage category II (anticipated transient overvoltage 2,5 kV) Electrostatic Endurance: -2. Analog Output (common to Function Generator and Custom Waveform Outputs) Max. Output Voltage: Amplitude Setting Ranges: (setting is peak level) ±10 V o.c. (o.c. = open-circuit) DC Offset: (setting range) Minimum Load Impedance: 10 V Range: 0 to 10 V o.c. (1 mV resolution) 1 V Range: 0 to 1 V o.c. (0.1 mV resolution) 0.1 V Range: 0 to 0.1 V o.c. (0.01 mV resolution) 10 V Range: -10 V to 10 V o.c. (1 mV resolution) 1 V Range: -1 V to 1 V o.c. (0.1 mV resolution) 0.1 V Range: -0.1 V to 0.1 V o.c. (0.01 mV resolution) 40 Ω Output Impedance: Rise and Fall Times: Overshoot: Interchannel Skew: Output Range Accuracy: 50 Ω ±2% (DC) < 45 ns (from 10 to 90% of peak amplitude square wave, with LPF bypassed, RL=50 Ω Selected amplitude (within ±5% of p-p value of square wave, with LPF bypassed, RL=50 Ω Within 25 ns (determined at simultaneous waveform selection) 1 V Range: add 0.2% of range to 10 V range accuracy 0.1 V Range: add 0.4% of range to 10 V range accuracy Note: refer to the following Function Generator and Arbitrary Waveform Generator sections for 10 V range accuracy -3. Function Generator Mode (Accuracy is determined at 10V range) Waveform Types: Frequency Range: sine, square (fixed 50% duty), triangle, ramp-up, ramp-down, pulse, noise, DC Sine wave: 0 to 10 MHz (10 mHz resolution) Square wave: 0 to 10 MHz (10 mHz resolution) Triangle wave: 0 to 200 kHz (10 mHz resolution) Ramp waves: 0 to 200 kHz (10 mHz resolution) Pulse wave: 0 to 200 kHz (10 mHz resolution) within ±50 ppm ±50 µHz of setting DC Offset Accuracy: DC Offset Stability: Amplitude Accuracy: Amplitude Stability: Phase Adjustment: Jitter: Square Wave Duty Cycle: Pulse Wave Duty Cycle: within ±0.5% ±25 mV of setting within ±DC Offset Accuracy × 0.1 per ˚C within 2% ±20 mVrms of setting (for 1 kHz sine wave) within (Amplitude Accuracy × 0.1) per ˚C -360.00 to 360.00˚ (0.01˚ resolution) within 100 ns p-p (triangle, ramp and pulse waves) fixed (40 to 60%) adjustable from 1 to 99% (0.1% resolution) (Pulse width must be 100 ns or greater) Frequency Accuracy: -4. Arbitrary Waveform Generation Mode (Accuracy is determined at 10V range) Voltage Axis Resolution: Waveform Memory Capacity: Filtering: Waveform Input Methods: DC Output Accuracy: DC Output Stability: 16 bits (64,000 counts) 128,000 Words/channel (channel independent) 2-stage LPF, 50 Hz to 1 MHz (14 steps in 1-2-5 progression) Floppy Disk, GP-IB or RS-232C download (direct download from MEMORY HiCORDER) within ±2% ±25 mV of setting within ±DC Output Accuracy × 0.1 per ˚C Amplitude Accuracy: Delay: Custom Waveform Clock: within 2% ±20 mVrms of setting (for 10,000 Words, 10 MHz clock sine wave) Settable within ±128,000 in 1-clock units Max. 4 channels (same as waveform output) Frequency range: 10 mHz to 10 MHz (10 mHz resolution) Frequency accuracy: within ±50 ppm ±50 µHz of setting Jitter: the larger of the effect within 800 ps, or within 0.05% of period setting 7 -5. Sweep Functions Sweep Waveform: Sweep Type: Sweep Object: Function Generator or Custom Waveform Linear (within an individual element) Function Generator: frequency, amplitude, offset, duty cycle (duty applies only to pulse waves. Frequency, amplitude and offset can be swept simultaneously) Custom Waveform: frequency, amplitude, offset, duty (frequency, amplitude and offset can be swept simultaneously) Sweep Time: Sequence Functions: 10 µs to 1000 s (10 µs or 5 digits resolution) Loop: element or group is output at specified times Hold: output of the last data element persists Sequence length: maximum 128 elements Loop Repeats: maximum 1042 times, or infinite loop Trigger: cancels infinite loop and hold, and moves to next element -6. Control Input/Output Inputs: TRIG IN, RUN/STOP IN, SYNC CLK IN, MASTER CLK IN TTL levels (only TRIG is independently controllable for channels 1-4) Outputs: TRIG OUT, RUN/STOP OUT, SYNC CLK OUT, MASTER CLK OUT TTL levels (only TRIG is independently controllable for channels 1-4) -7. Miscellaneous Setting Format Selection: Unit Selection: Current Function: frequency ↔ period amplitude, offset ↔ upper/lower limits Selectable: Hz ↔ r/min (rpm) Vpeak ↔ Vrms Save Output Conditions: Synchronized Drive: Number of Internally Storable Waveforms: Conditions at power off, waveform backup Maximum 4 units (16 channels) 8 7075 WAVEFORM GENERATOR (4ch) 7075-01 WAVEFORM GENERATOR (2ch) q OPTIONS 9165 CONNECTION CORD (BNC-BNC/1.5m, 59.1”) 9166 CONNECTION CORD (BNC-CLIP/1.5m, 59.1”) 9151-02 GP-IB CONNECTION CABLE (2m, 78.7”) 9151-04 GP-IB CONNECTION CABLE (4m, 157.5”) Note : Product names appearing herein are trademarks or registered trademarks of various companies. Related Products HIOKI 8800 series MEMORY HiCORDERs are waveform storage devices that can store high-speed and transient phenomena. A full line of versions is available for applications requiring 2 to 32 channels, high-speed sampling or large memory capacity. Actual measured waveform data is saved to the unit's internal memory or external floppy disk for downloading directly to the Model 7075, enabling quick regeneration of actual waveforms. Also, with the bundled 7990 Waveform Creation Software, actual measured waveforms can be loaded into the PC for unlimited processing. q Downloadable Models (through floppy disk, GP-IB or PC) 8806, 8806-1, 8807, 8808, 8825, 8826, 8835-01, 8830S, 8840, 8841, 8842, 8845, 8846, 8850, 8851, 8852, 8852-01, 8853, 7070 8807/8808 2, 4ch 400 kS/s 256k(1ch) to 128kW(2ch), 256k(1ch) to 64kW(4ch) PC Card 8826 Max. 32 ch/Color display 1 MS/s 4M (1 ch) to 500 kW (32 ch) Floppy/MO disk, PC Card 8835-01 Max. 8 ch/Color display 1 MS/s 4 MW (1 ch) to 500 kW (8 ch) Floppy disk, PC Card 8841/8842 Max. 16 ch/Color display 1 MS/s 4M (1 ch) to 500 kW (16 ch) Floppy/MO disk, PC Card 8845/8846 Max. 16 ch/Color display 200 kS/s 1M (2 ch) to 100 kW (16 ch) DAT(8845), MO(8846 8852/8852-01 4 ch 100 MS/s 16M (1 ch) to 4 MW (4 ch) Floppy disk DISTRIBUTED BY ASM GmbH Am Bleichbach 18 - 22 85452 Moosinning / Germany All information correct as of Oct.29 1999. All specifications are subject to change without notice. s Inter net HIOKI website http://www.hioki.co.jp/ F7075E2-9ZB-03K Printed in Japan

很抱歉,暂时无法提供与“7075”相匹配的价格&库存,您可以联系我们找货

免费人工找货