AFG-3000 Arbitrary Function Generator New Product Announcement
Contents
1. Key Dates for Product Announcement 1 Order queue Open August 6th 2010 2 Distributor Announcement August 6th 2010 3 Global Market Announcement Beginning of August 4 Demo Units Shipped to Distributors Beginning of August 5 Mass quantity order fulfillment Beginning of September Service Policy 1 1year warranty 2 Service Support The service instructions in the Service Manual will help distributors repair defective units promptly Should the board replacement is necessary to fix the defective unit the board swapping service support is provided by Good Will Instrument to facilitate the repair jobs done at the distributor s site 3 GW Instek continuously provides the after sales support through its Website The latest version of service manual and Marcom material of AFG 3000 will be posted on the distributor zone of GW Instek Website at http www gwinstek com Ordering Information AFG 3081 80MHz Arbitrary Function Generator AFG 3051 50MHz Arbitrary Function Generator ACCESSORIES User Manual x 1 Power Cord x 1 GTL 110 Test Lead x 1 Sincerely Yours Overseas Sales Department Good Will Instrument Co Ltd No 7 1 Jhongsing Road Tucheng City Taipei County 236 Taiwan Email marketing goodwill com tw AFG 3000 NPI Announcement 11 11 8 4 20102. GW INSTEK ISO 9001 CERTIFIED MANUFACTURER GOOD WILL INSTRUMENT CO LTD Made to Measure AFG 3000 Arbitrary Function Generator New Product Announcement Good Will Instrument is announcing an Arbitrary Waveform and Digital Synthesized Function Generator AFG 3000 Series to the market This is the new generation of GW Instek digital function and arbitrary waveform generator migrating from the technology of its popular product SFG 830 into an advanced arena The AFG 3000 Series is designed for industrial scientific research and educational applications The series comes with a bandwidth of 80MHz for AFG 3081 and 50MHz for AFG 3051 The AFG 3000 Series featuring 200Msa s sampling rate 16 bit vertical resolution and 1M point waveform length is a very useful and flexible signal source to meet diversified application needs in the market today The user friendly operation the On Screen Help and the multiple ways of arbitrary waveform editing make AFG 3000 just a plug and play equipment The point by point waveform data entry or standard waveform clip piling through front panel operation the CSV file waveform data download the direct waveform reconstruction through DSO waveform data import and the PC software edited waveform download are the 4 ways available for arbitrary waveform editing A 4 3 inch high resolution TFT LCD in the AFG 3000 front panel is used to display waveform and setting parameters The large a
3. gt 3 Vpp 45 dBc IMHz 5 MHz Ampl gt 3 Vpp 30 dBc 5MHz 80 MHz Ampl gt 3 Vpp lt 0 2 0 1mVrms DC to 20 kHz Spurious non harmonic 5 60 dBc DC 1 MHz 50 dBc IMHz 20MHz 50 dBc 6 dBc octave IMHz 80MHz Phase Noise lt 65dBc typical JOMHz 30 kHz band lt 47dBc typical 830MHz 30 kHz band Square wave Characteristics Rise Fall Time lt 8 ns 3 Overshoot lt 5 Asymmetry 1 of period 1 ns 20 0 to 80 0 lt 25 MHz Variable duty Cycle 40 0 to 60 0 25 50MHz 50 0 Fixed 50 80MHz Jitter 0 01 525ps lt 2MHz 0 1 75ps gt 2MHz Ramp Characteristics Linearity 0 1 of peak output Variable Symmetry 0 to 100 Pulse Characteristics Period 20ns 2000s AFG 3000 NPI Announcement 8 11 8 4 2010 GW INSTEK Made to Measure ISO 9001 CERTIFIED MANUFACTURER GOOD WILL INSTRUMENT CO LTD 8ns 1999 9s Minimum Pulse Width 8nS when FREQ 50MHz Pulse Width 5 of setting period when FREQS6 5MHz Resolution 1nS when FREQS50MHz 1 of setting period when FREQS6 5MHz Overshoot lt 5 Jitter 100 ppm 50 ps AM Modulation Carrier Waveforms Sine Square Triangle Ramp Pulse Arb Modulating Waveforms Sine Square Triangle Up Dn Ramp Modulating Frequency 2 mHz to 20 kHz Depth 0 to 120 0 Source Internal External FM Modulation Carrier Waveforms Sine Square Triang
4. 18sec 35 sec 256K points 49 sec 9 sec 18 sec 64K points 16 sec 3 sec 6 sec 16K points 7 sec 830ms 1340 ms 8K points 6 sec 490ms 780ms 4K points 6 sec 365ms 520 ms 2K points 5 sec 300ms 390 ms General Specifications Power Source AC100 240V 50 60Hz Power Consumption 65 VA Temperature to satisfy the specification 18 28 C Operating temperature 0 40 C Operating Environment Relative Humidity lt 80 0 40 C lt 70 35 40 C Installation category CAT II Operating Altitude 2000 Meters AFG 3000 NPI Announcement 10 11 38 4 2010 GW INSTEK ISO 9001 CERTIFIED MANUFACTURER lt m GOOD WILL INSTRUMENT CO LTD Made to Measure Pollution Degree IEC 61010 Degree 2 Indoor Use Storage Temperature 10 70 C Humidity lt 70 Dimensions WxHxD 265 W x 107 H x 374 D Weight Approx 4kg Safety Designed to EN61010 1 EMC Tested to EN 55011 IEC 61326 Accessories User Manual x 1 Power Cord x 1 GTL 110x 1 1 A total of ten waveforms can be stored Every waveform can be composed of 1M points maximum 2 Add 1 10th of output amplitude and offset specification per oC for operation outside of 00C to 280C range 1 year specification 3 Edge time decreased at higher frequency 4 Sine and square waveforms above 25 MHz are allowed only with an Infinite burst count 5 Harmonic distortion and Spurious noise at low amplitudes is limited by a 70 dBm floor
5. 0 NPI Announcement 3 11 3 4 2010 GW INSTEK ISO 9001 CERTIFIED MANUFACTURER 4 GOOD WILL INSTRUMENT CO LTD Made to Measure sine wave generation program Pj a a result round 2 1 5 sin 0 0 01 2 pi 0 Save gensin csv result ASci 2 end 629 Sample Rate 20000000 ae 0 Sample Rate 200000000 0 328 398 655 655 983 1310 1310 Supports CSV file From Math Computing Software Program and Result in CSV File Direct Waveform Reconstruction DWR Capability The AFG 3000 can be directly connected to a GW Instek GDS 2000 Series DSO with USB cable for waveform data download Under DSO Link mode of AFG 3000 the DSO will transfer the captured waveform data from its memory to AFG 3000 for creating a correspondent waveform output Arbitrary Waveform Editing PC Software A PC software for AFG 3000 waveform editing is supported The software contains not only waveform drawing tools but also a wide variety of waveform editing functions such as waveform arithmetic operations The most commonly used waveforms including Rayleigh Gaussian Normal Noise Pseudo Ternary Bipolar AMI Manchester Differential Manchester RS 232 and NRZ etc are available in the library for user to tailor specific waveforms as needed NAZI Bippolar ARAL Praucoternary Manchester Differential Manchester IFEF Arma Pore Wes Pom Sabat basaand mat hina A Sinc Wavefo
6. ILL INSTRUMENT CO LTD Made to Measure 50MHz Main Competition GW AFG 3000 Picotest G5100A Product Main Frequency Amplitude 10Vpp 500hm 10Vpp 500hm Display 9 3cm Color LCD Sample rate 200MSa S 125MSa S ARB Vertical 14bit Horizontal 256k Channel 1CH 1CH Sweep LIN LOG LIN LOG Modulation AM FM FSK PSK PWM AM FM PM PSK FSK PWM Mark X Trigger Gate Burst V V Interface USB LAN GPIB Optional Target Market and Associated Features 1 R amp D and Testing of Switching Power Supply Adapter Inverter Electric Power and IC Design 2 Educational and Research Labs 3 ATE Systems Industry Applications Key Features needed Inverter Testing Less than 5 duty cycle Noise Simulation Various kinds of noise simulation Surge Simulation LCD industries Integration Testing Less than 5 duty cycle Back light inverter signal simulation Support all kinds of noise Automatic control is needed simulation Complete command set industries Speed simulation e Built in application waveform Component Testing Specifications The specifications apply when the function generator is powered on for at least 30 minutes under 20 C 30 C Waveforms AFG 3051 AFG 3081 Sine Square Ramp Pulse Noise DC Sin x x Exponential Rise Exponential Fall Negative Ramp Arbitrary Waveforms ARB Function Built in Samp
7. cting a complete waveform i e frequency sampling rate the number of points in a waveform Based on the above the higher the sampling rate the higher the arbitrary waveform frequency can be available At a specific waveform frequency AFG 3000 gives a 5ns horizontal resolution for the output waveform better than that a low sampling rate unit can provide The 16 bit amplitude resolution can display smooth waveforms while a lower bit resolution will display only jagged or less smooth waveforms To generate the maximum level of 10V Ramp Waveform as an example AFG 3000 with 16 bit D A converter gives a 0 15mV resolution Whilst a signal source with 12 bit D A converter will give only a 2 4mV resolution The advantage of 16 bit resolution is to provide straight line waveform with fine resolution AFG 3000 NPI Announcement 2 11 8 4 2010 GW INSTEK ISO 9001 CERTIFIED MANUFACTURER aama m GOOD WILL INSTRUMENT CO LTD Made to Measure However the lower bit resolution can only provide a ladder shape waveform under the same output setting 16 bit Allows Greater Details OUTPUT FROM ANY SECTION OF 1M POINT LONG WAVEFORMS The AFG 3000 Series provides 10 sets of memory for user save and recall applications Each set of memory is able to store a set of front panel setting and a set of 1M point arbitrary waveform data With 1M long memory AFG 3000 can store more complex waveforms consisted of more data Furthermore any section of waveform wi
8. e AFG 3000 NPI Announcement 5 11 8 4 2010 GW INSTEK ISO 9001 CERTIFIED MANUFACTURER mw GOOD WILL INSTRUMENT CO LTD Made to Measure AFG 3000 Series Product Description AFG 3081 80MHz Arbitrary Waveform Generator AFG 3051 50MHz Arbitrary Waveform Generator Key Features e Wide frequency range from 1pHz 80 50MHz e 1pHz Frequency Resolution throughout Full Range e Standard waveform Sine Square Triangle Ramp Pulse Noise e Built in AM FM PWM FSK Sweep Burst Functions e 16 bit 200MSa s 1M point deep arbitrary waveform e DWR Direct Waveform Reconstruction Capability e Arbitrary Waveform Editing PC Software e 4 3 high resolution LCD display e USB RS 232 GPIB Standard Interface Product Position amp Competition Product Position Among available AFGs in the mid range market AFG 3000 possesses the richest ARB functions as well as the lowest Total Cost per Ownership Competitions 80MHz Main Competition GW AFG 3000 Agilent 33250A Product m o D d Main Frequenc 80M Hz Amplitude 10Vpp 500hm 10Vpp 500hm Display 9 3cm Color LCD Sample rate 200M Hz 200M Hz ARB Vertical 12bit Horizontal 64k Channel 1CH 1CH Sweep LIN LOG LIN LOG Modulation AM FM FSK PSK Mark X Trigger Gate Burst V V Interface RS232 GPIB Optional AFG 3000 NPI Announcement 6 11 8 4 2010 GW INSTEK ISO 9001 CERTIFIED MANUFACTURER u GOOD W
9. le Ramp Modulating Waveforms Sine Square Triangle Up Dn Ramp Modulating Frequency 2 mHz to 20 kHz Peak Deviation DC to 50 MHz DC to 80 MHz Source Internal External PWM Carrier Waveforms Square Modulating Waveforms Sine Square Triangle Up Dn Ramp Modulating Frequency 2 mHz to 20 kHz Deviation 0 100 0 of pulse width Source Internal External FSK Carrier Waveforms Sine Square Triangle Ramp Pulse Modulating Waveforms 50 duty cycle square Internal Rate 2 mHz to 100 kHz Frequency Range DC to 50 MHz DC to 80 MHz Source Internal External Sweep Waveforms Sine Square Triangle Ramp Type Linear or Logarithmic Direction Up or Down Start Stop Freq 100 uHz to 50 MHz 100 uHz to 80 MHz Sweep Time 1 ms to 500s Trigger Single External Internal idler Falling edge of Mark signal Programmable frequency Source Internal External Burst Waveforms Sine Square Triangle Ramp Frequency 1 uHz to 50 MHz 4 1 uHz to 80 MHz 4 Burst Count 1 to 1000000 cycles or Infinite Start Stop Phase 360 0 to 360 0 Internal Period 1 ms to 500 s Gate Source External Trigger Trigger Source Single External or Internal Rate Mies N Cycle Infinite Os to 85s Delay External Modulation Input Type Voltage Range For AM FM Sweep PWM 5V full scale Input Impedance 10k0Q Frequency DC to 20kH
10. le Rate 200 MSa s Repetition Rate 100MHz Waveform Length 1M points Amplitude Resolution 16 bits Non Volatile Memory Ten 1M waveforms 1 rian pended pN Any section from 2 to 1M points Section co Mar Any section from 2 to 1M points AFG 3000 NPI Announcement 7 11 3 4 2010 GW INSTEK Made to Measure ISO 9001 CERTIFIED MANUFACTURER GOOD WILL INSTRUMENT CO LTD Frequency Characteristics Sine 50MHz 80MHz Range Square 5OMHz 80MHz Triangle Ramp IMHz Resolution luHz T 1 ppm 0 to 50 C Neama ey 0 3 ppm 18 to 28 C Aging ppm per year Tolerance lt 1 Hz Output Characteristics 2 Rage 10 mVpp to 10 Vpp into 500 20 mVpp to 20 Vpp open circuit 1 of setting 1 mV R at 1 WRTS Pe Amplitude Resolution 0 1 mV or 4 digits 1 0 1dB lt 10 MHz E PEEN 2 0 2 dB 10 MHz to 50 MHz 10 0 9 dB 50 MHz to 70 MHz 20 1 9 dB 70 MHz to 80 MHz sinewave relative to 1 kHz Units Vpp Vrms dBm 5 Vpk ac dc into 500 Ouse nang OVpk ac es AR Accuracy 1 of setting 2 mV 0 5 Amplitude Waveform ieapedance 500 typical fixed Output P gt 10MQ output disabled ee Short circuit protected Overload relay auto matically disables main output ae Level TTL compatible into gt 1kQ Impedance 500 nominal Sine wave Characteristics Harmonic distortion 5 Total Harmonic Distortion 60 dBc DC 1 MHz Ampl lt 3 Vpp 55 dBc DC 1 MHz Ampl
11. nd high resolution screen is especially useful when the arbitrary waveform construction is done through front panel operation The impedance of AFG 3000 can be selected between 50 Ohm and Hi Z to ensure right impedance compatibility between AFG and DUT WIDE FREQUENCY RANGE FROM 1pHZ to 80 5OMHz The AFG 3000 Series Arbitrary Waveform Function Generator employs direct digital synthesis DDS technology to generate and output a variety of stable and precise waveforms The frequency operates at up to 830MHz AFG 3081 or 50MHz AFG 3051 with a maximum resolution of 1uHz for the entire frequency range The built in standard waveforms include sine square triangle ramp pulse noise and other types of waveforms Triangle Noise The Finest 1uHz Resolution AFG 3000 NPI Announcement 1 11 3 4 2010 GW INSTEK ISO 9001 CERTIFIED MANUFACTURER m GOOD WILL INSTRUMENT CO LTD Made to Measure MODULATION SWEEP and BURST FUNCTIONS The Modulation functions including AM FM FSK and PWM are provided to cover a broad range of market requirements A dedicated terminal for the modulating signal output is available in the front panel for modulation monitoring or other control purposes Either an internal signal or an external signal can be selected to perform modulation FSK is a frequency modulation scheme in which digital information is transmitted through signal frequency variation The BFSK binary FSK modulation using two freq
12. rm with Gaussian Noise Gaussian Noise Digital Signal IMPEDANCE SWITCH amp ON SCREEN HELP AFG 3000 allows users to select the suitable impedance between 50 ohm and High Z ensuring right impedance compatibility between AFG 3000 and DUT The built in On Screen Help allows users to understand the AFG 3000 operations and the definition of each function key easily AFG 3000 NPI Announcement 4 11 8 4 2010 GW INSTEK Made to Measure Interface USB GPIB Address 10 RS232 Baud Rate 115200 RS232 Parity Bits None Language English Beep On Impedance Switch STANDARD COMMUNICATION INTERFACES ISO 9001 CERTIFIED MANUFACTURER GOOD WILL INSTRUMENT CO LTD Example FREQ 200 0000 Hz AMPL 10 00 VPP Freq 200Hz Rate 270KHz MOD of t Sweep Ofi Burst OFF Built in Sine a Display Start 0 Display Length 200 Output Start 50 Output Length 100 Marker Start 25 Marker Length 50 Next page to view the output waveform On Screen Help The AFG 3000 Series provides GPIB RS 232 and USB as standard communication interfaces AFG 3000 supports IEEE 488 2 protocol and command for users to integrate system or remotely control the instrument 4 3 HIGH RESOLUTION LCD DISPLAY The AFG 3000 Series is equipped with a 4 3 LCD screen of 480 x 272 resolutions In addition to displaying all of the settings on the screen the large graphic display also allows users to observe complete waveforms at a glanc
13. thin each 1M memory can be edited or output independently This is a unique feature allowing users to do waveform storage and extraction with more flexibility and at the same time giving users the maximum utilization of the overall memory capacity Arbitrary Editing Output EASY OPERATION AND FLEXIBLE ARBITRARY WAVEFORM EDITING The AFG 3000 presents four methods of Arbitrary Waveforms generation including direct front panel operation PC software editing and download CSV file download and GDS 2000 Series oscilloscope direct input Front Panel Operation FREQ 33 3333 Hz AMPL 10 00 VPP Everything from waveform editing I O configuring to panel setting storage and recall can be completed directly through front panel operation The point by point waveform data entry and standard waveform clip piling are both feasible Front panel operation allows users to edit arbitrary waveform which is correspondingly updated on the screen A feature of What You See is What You Get a Panel Operation CSV file uploading AFG 3000 supports CSV file editing for arbitrary waveform generation The CSV file can be created in many ways including using EXCEL spreadsheet PC client software front panel editing or math computing software The computing result of math software Octave for example can be saved into CSV file Edited CSV file can be downloaded from either USB flash or PC to AFG 3000 for arbitrary waveform output AFG 300
14. uencies to represent data 1 and 0 respectively is commonly applied for Call ID and Remote Metering applications PWM is a digital modulation scheme that can be used to adjust the output power level by controlling the pulse width of the driving signal The examples include the speed control of motor rotation and the luminance control of LED lighting instrument Changing the pulse width of driving signal via PWM the rotating speed of motor and the luminance of LED will change accordingly PWM to Control amp Test the Motor Speed The Sweep function supports three trigger modes INT EXT and manual and two sweep modes LOG and LIN Each time a sweep signal is perceived the function generator will start to sweep through the user defined frequency range by the frequency variation of either Log curve or Linear curve The Burst function supports two modes Gate and N Cycle To run burst function the burst repetitive rate has to be set first then the time duration of each burst has to be defined under Gate mode or the number of the waveform cycles in each burst has to be set under N Cycle mode Under both Gate mode and N Cycle mode the burst waveform polarity and phase can be controlled Burst 200MSa s SAMPLING RATE amp 16 Bit Amplitude Resolution The profile of arbitrary waveform is composed of a series of data The frequency of arbitrary waveform is derived from sampling rate divided by the number of points constru
15. z External Trigger Input Type For FSK Burst Sweep AFG 3000 NPI Announcement 9 11 8 4 2010 GW INSTEK Made to Measure ISO 9001 CERTIFIED MANUFACTURER GOOD WILL INSTRUMENT CO LTD Input Level TTL Compatibility Slope Rising or Falling Selectable Pulse Width gt 100ns Input Impedance 10kQ DC coupled Swee lt 10us typical sarene i lt T T Swee 2 5 us pict ea 1 ns except pulse 300 ps Modulation Output Type For AM FM Sweep PWM Amplitude Range 21Vpp Impedance gt 10kQ typical fixed Trigger Output Type For Burst Sweep Level TTL Compatible into 50Q Pulse Width gt 450 ns Maximum Rate 1 MHz Fan out 24 TTL load Impedance 50Q Typical Marker Output Type For ARB Sweep Level TTL Compatible into 500 Fan out 24 TTL load Impedance 50Q Typical Store Recall 10 Groups of Setting Memories Interface GPIB RS232 USB Display 4 3 inch TFT LCD 480 x 3 RGB x 272 System Characteristics Configuration Times typical Function Change Standard gt 102ms Pulse gt 660ms Built In Arb gt 240ms Frequency Change 24ms Amplitude Change 50ms Offset Change 50ms Select User Arb lt 2s for 1M points Modulation Change lt 200ms Arb Download Times GPIB RS232 I aoe ae typical Kbps USB Device USB Host 1M points 189 sec 34 sec 70 sec 512K points 95 sec
Download Pdf Manuals
Related Search