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PeakTech 1015 GPIB, Operation Manual

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31

 

FRQ 

Command Execution examples 

 

Example 1. To set 1kHz   
You would send the following program message: 

 

FRQ1kHz

 

 

Example2. To set 10kHz   
You would send the following program message: 

 

FRQ10kHz

 

 

Note: 

* When you enter FRQ1.5kHz, the instrument generates 1.500kHz automatically. 
* When you enter FRQ1.5MHz, the instrument generates 1.500MHz automatically. 

 

More in one line 

It is allowed to combine multiple commands and/or queries with their respective data into one single line. 
To combine multiple commands and queries with their respective data, a separator must be used. The 
semicolon (

;

) is used as a separator between commands and/or queries. This separator is officially 

called a “program message unit separator”. The followings are the examples to combine multiple 
commands and/or queries. 

 

Example1. To generate 

sine

 waveform, 

1kHz

 

You would send the following program message: 

 

WFM0;FRQ1kHz

 

 
Example2. To generate 

sine

 waveform, 

1kHz

Amp

litude 

50

 

You would send the following program message: 

 WFM0;FRQ1kHz;AMP50

 

 

 
 
All rights, also for translation, reprinting and copy of this manual or parts are reserved.   
Reproduction of all kinds (photocopy, microfilm or other) only by written permission of the publisher. This 
manual considers the latest technical knowing. Technical changing which are in the interest of progress 
reserved. 
We herewith confirm, that the units are calibrated by the factory according to the specifications as per 
the technical specifications. 
We recommend to calibrate the unit again, after 1 year. 

 

PeakTech

®

 05/2004 

 
 

 

 

 

Summary of Contents for 1015 GPIB

Page 1: ...i Operation Manual Programmable Function Generator PeakTech 1015 GPIB PeakTech Spitzentechnologie die berzeugt...

Page 2: ...ii Programmable Function Generator...

Page 3: ...smitters vehicle radios and cellular phones generate electromagnetic radiation that could be induced into the test leads of this instrument Care should be taken to avoid such situations or alternative...

Page 4: ...ge conductors Remove any source of water or other conductive liquids in the working area 3 Connect this unit only to a 3 prong AC outlet which conforms to electrical safety codes Do not use any adapte...

Page 5: ...otary Dial 14 4 Quick Reference Guide 15 Chapter 5 Using this instrument 1 Equipment Needed 16 2 Preliminary setup 16 3 How to use the function wave generator 16 4 Generating a pulse waveform 18 5 Usi...

Page 6: ...n and ranges may be controlled from a PC via the RS232 or the optional GP IB interface 8 May be used with any line voltages from 85V to 270V AC may be used with out any internal changes 9 Low Distorti...

Page 7: ...ne Triangle Square TTL rectangular Pulse Step etc Output range Max 20 Vpp No load Max 10 Vpp into 50 Impedance 50 5 Attenuator 0 dB 20 dB DC Offset 7 5 V DC No Load 3 Wave form characteristics 1 Sine...

Page 8: ...Use only correct size voltage and current rated fuses Test leads Inspect the test leads for damaged insulation or exposed metal Check test lead continuity Damaged leads should be replaced Chapter 2 I...

Page 9: ...relative humidity 85 less Chapter 3 Product description In this chapter the front and rear panel buttons controls and connectors are described 1 Front Panel buttons and connectors description Program...

Page 10: ...a digit is highlighted Pressing the Button again the cursor changes to a v symbol indicating the digit edit cursor mode Rotating the rotary dial changes the digit value 7 AMP Button Pressing this but...

Page 11: ...NG AND TYPE DISCONNECT POWER SUPPLY BEFORE REPLACING FUSE DO NOT REMOVE COVER REFER SERVICING TO FUSE 85V 270V 50 60Hz 250V T2AL Made in Korea AC IN F U S E IEEE 488 RS 232C S N Figure 3 Rear Panel CA...

Page 12: ...ces to the GP IB interface Note The total cable length should be less than 25m 80ft and the maximum number of device connections including controller is 15 GP IB Example Figure 6 is an example of conn...

Page 13: ...ep settings F5 Table 1 LCD display areas Figure 5 LCD Display AMP display mode 1 Cursor 1 The cursor is displayed in the upper part of the LCD when the unit is first turned on as shown in Figure 5 It...

Page 14: ...utton to display the selection mode cursor or b Turn the rotary dial until the cursor indicates WAVEFORM ____ c Press the button to change the cursor to the edit mode or d Rotate the rotary dial to di...

Page 15: ...otary dial to highlight the next digit to be changed and repeat steps 1e and 1f 2 OFS DC Offset 999 to 999 The DC off offset adds a 0 to 7 5 V DC level no load to the waveform in a scale from 999 to 9...

Page 16: ...r d Rotate the rotary dial to display the new Sweep rate 3 WIDTH Sweep width The sweep width can be adjusted from 0 05 to 19 95 Sec in a scale from 0 to 99 To change the Sweep width a Press the Button...

Page 17: ...called from memory F2 EQUIP Displays information about your instrument including the serial number CALIBRATION date GP IB address and Firmware F3 Not used F4 LOCK Disables all front panel buttons exce...

Page 18: ...T F4 button advances the display to the next menu screen exit returns the display to the normal screen Selects memory page address 0 to 7 FREQ WAVE FORM OUTPUT STATUS AMPL OFFSET ATTEN SYM SWEEP RATE...

Page 19: ...s the F5 button 4 Load and display a previously saved menu page Press and release the F1 button until the desired menu page is displayed Press the F3 LOAD button 5 Press the F5 EXIT button to exit thi...

Page 20: ...15 4 Quick Reference Guide Programmable Function Generator PeakTech 1015 GPIB...

Page 21: ...range before turning the unit on See Figure 3 2 Connect the AC power cord to the receptacle on the rear panel 3 Turn on the power on by pressing the PWR button for 1 5 to 2 seconds 4 Let the unit War...

Page 22: ...aveform Figure 8 Output waveform and phase relation 2 Reference supplementary explanation The following material is basic to the operation of this equipment and should be remembered when using this in...

Page 23: ...ry of 1 1 which means the time and shape of the positive alternation is equal to the time and shape of the negative alternation This is the default state of the symmetry control in this unit The symme...

Page 24: ...and 4 of Fig 12 3 Repetition Rate can be expressed either as a frequency or time period Repetition Rate can be measured in time on the Oscilloscope and changed to a frequency by using the formula F 1...

Page 25: ...nction dial 4 Press the button to select the selection cursor and move the cursor to SWEEP WIDTH by rotating the rotary dial 5 Press the button to display the change cursor and rotate the rotary dial...

Page 26: ...need the reselection to the regular frequency periodically To get the accurate frequency select the output frequency by putting the output frequency measure and the time that you have to control the...

Page 27: ...directory named Model No automatically in Hard Disk 4 Connection of PC and Instrument Connect the RS 232 cable to the built in RS 232 connector in the Instrument and to the PC serial port 5 Communicat...

Page 28: ...RS 232 C Interface Safety Regulations 1 Do not touch any part of high voltage circuit or make any unnecessary high voltage measure ments Do not remove the top or bottom covers of this unit unless you...

Page 29: ...equipment setup mode 3 Press Edit button to display the movement cursor 4 Move the movement cursor to GPIB address setup field 5 Press button to change the movement mode to correction mode 6 Select t...

Page 30: ...This includes the programming languages Quick Basic GW Basic Visual Basic Quick C Turbo C and Turbo C Communications programs such as ProComm a shareware version are also usually acceptable RS232C Sp...

Page 31: ...ops the program 3 GPIB IEEE 488 2 Overview Introduction The instrument conforms to the Institute of Electrical and Electronics Engineers IEEE Standard 488 2 1987 The specific implementation of IEEE 48...

Page 32: ...PIN number and signal Pin number IEEE standard Pin number IEEE Standard 1 DIO 1 13 DIO 5 2 DIO 2 14 DIO 6 3 DIO 3 15 DIO 7 4 DIO 4 16 DIO 8 5 EOI 17 REN 6 DAV 18 GND 6 7 NRFD 19 GND 7 8 NDAC 20 GND 8...

Page 33: ...Command Description CLS Clear Status ESE GPIB ONLY Standard Event Status Enable ESE Standard Event Status Enable Query ESR Standard Event Status Register Query IDN Identification Query OPC Operation C...

Page 34: ...age a special terminator is required CR LF CR represents carriage return and is an ASC 0D CHR 13 for basic LF represents line feed and is an ASC 0A CHR 10 for basic Command Execution examples Example1...

Page 35: ...ymmetry 0 99 9 Symmetry SYM SYM Symmetry query SWP0 SWP0 OFF SWP1 ON SWP SWP Sweep query SWR0 05 Sweep rate 0 05 9 95 Sweep rate step 0 05 SWR SWR Sweep rate query SWW0 Sweep width 0 99 Sweep SWW SWW...

Page 36: ...ally called a program message unit separator The followings are the examples to combine multiple commands and or queries Example1 To generate sine waveform 1kHz You would send the following program me...

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