advantest corporation TR5821 Operation Manual Download

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ilDVANTEST

ADVANTEST CORPORATION

TR5821/22/23/23H

Universal Counter

Operation Manual

M A N U A L N U M B E R FOE-8311233K03

1982 A D V A N T E S T C O R P O R A T I O N

First printing June 1, 1982

Printed in Japan

Summary of Contents for TR5821

Page 1: ...NTEST ADVANTEST CORPORATION TR5821 22 23 23H Universal Counter Operation Manual M A N U A L N U M B E R FOE 8311233K03 1982 ADVANTEST CORPORATION Allrights reserved Firstprinting June 1 1982 Printed in Japan ...

Page 2: ...ch will result in death or serious personal injury CAUTION Indicates a potentially hazardous situation which will result in personal injury or a damage to property including the product Basic Precautions Please observe the following precautions to prevent fire bum electric shock and personal inju ry Use a power cable rated for the voltage in question Be sure however to use a power cable conforming...

Page 3: ...icating items requiring caution which are used in this manual are shown below to gether with their meaning DANGER indicates an item where there is adanger of serious personal injury death or seri WARNING Indicates an item relating to personal safety or health CAUTION Indicates an item relating to possible damage to the product or instrument or relat Caution Symbols Used W ithin this Manual ous inj...

Page 4: ...them properly with abiding by the state provided law Harmful substances 1 PCB polycarbon biphenyl 2 Mercury 3 Ni Cd nickel cadmium 4 Other Items p o s s e s s i n gcyan organic phosphorous and hexadic chromium and items which may leak cadmium or arsenic excluding lead in sol der Example fluorescent tubes batteries S a f e t y 3 ...

Page 5: ...ee area An area free from vibrations Direct surli hf Dust Vibration Figure 1 Environmental Conditions Instrument Placement Front Keep at least 10 centimeters of space between the rear panel and any other surface Figure 2 Instrument Placement This instrument can be used safely under the following conditions Altitude of up to 2000 m Installation Categories 1 1 Pollution Degree 2 S a f e t y 4 ...

Page 6: ...rica CSA Canada 125 Vat 7 A Black 2 m 6 ft Straight AO1403 Option 95 Angled A01413 CEE Europe DEMKO Denmark NEMKO Norway VDE Germany KEMA The Netherlands CEBEC Belgium OVE Austria FIMKO Finland SEMKO Sweden 250 V at 6 A Gray 2 m 6 ft Straight AO1404 Option 96 Angled A01414 SEV Switzerland 250 V at 6 A Gray 2 m 6 ft Straight A01405 Option 97 Angled A01415 SAA Australia New Zealand 250 V at 6 A Gray...

Page 7: ...cedure 3 1 2 3 3 1 Self diagnostics Function 3 12 3 3 2 Error Messages 3 1 3 3 3 3 Panel Switch Check 3 14 3 3 4 Frequency Measurement 3 15 3 3 5 Period Measurement 3 1 8 3 3 6 Time Interval Measurement 3 1 8 3 3 7 Frequency Ratio Measurement 3 19 3 3 8 T otalize 3 20 3 3 9 M asking 3 21 3 3 10 High frequency Fuse Replacement 3 22 SECTION 4 GPIB INTERFACE 4 1 Introduction 4 1 4 2 General Outline o...

Page 8: ...Calibration 6 2 6 4 Influence of Temperature and Line Voltage Variations on Stability 6 5 SECTION 7 CALCULATION UNIT TR1644 ACCESSORY 7 1 Name and Function of Keyboard 7 1 7 2 Calculation Unit Installation 7 2 7 3 Operating Examples 7 4 7 4 Notes on U se 7 5 SECTION 8 OPTIONS 8 1 BCD Output 8 1 8 2 D A Converter 8 5 8 3 High stability Reference Oscillator TR5823 only 8 6 APPENDIX A TABLE OF SIGNAL...

Page 9: ...cy ratio measurement 3 19 3 12 Totalize measurement 3 20 4 1 GPIB ou tlin e 4 2 4 2 Signal line termination 4 3 4 3 GPIB connector pin assignment 4 4 4 4 Retention of remote settin g 4 11 4 5 GPIB interface panel 4 12 5 1 TR5821 5822 5823 block diagram 5 2 5 2 LSI80 GC and LSI80 SS 5 6 5 3 Number of periods with time frequency 5 9 5 4 Slew rate vs amplitude frequency 5 10 5 5 Period time interval ...

Page 10: ...IST OF TABLE Table Page 3 1 Setting for AC line v o lta g e 3 3 3 2 Error message types and error locations 3 13 4 1 Interface functions 4 4 4 2 Standard bus cables 4 10 4 3 Address code ta b le 4 13 iv ...

Page 11: ...R5821 is a universal counter that can measure frequencies ofup to 120 MHz and can display results in arbitrary form with TR1644 an extra cost option The TR5822 has the same functions as the TR5821 plus a built in GPIB interface and the functions of the TR5823 include an ultrahigh frequency measurement 1 3 GHz and a burst signal measurement in addition to the functions of the TR5821 The TR5823H is ...

Page 12: ...while the ON OFF switch is being pressed GATE lamp on when released GATE lamp off totalized result is displayed 3 Though selectable by function selector switch 4 position on TR 5821 5822 is not used Move to any other position 4 In case of frequency measurements FREQ B TR5821 TR5822 TR5823 TR5823H when the rapid switching of input frequency happen the timing of switched frequency may cause the meas...

Page 13: ... 1 period time of input frequency below 10 mHz Eight display digits Unit display mHz Hz kHz or MHz Accuracy Trigger error 10m 1 count time base accuracy Where 10m is the number of periods See 5 3 2 Note W hen the rapid sw itch in g of input frequency happen the tim ing of switched frequency m ay cause the m easurem ent tim e to get longer Frequency measurement FREQ C TR5823 Range 100 MHz to 1300 M...

Page 14: ...coupling mode Input impedance Pulse resolution Trigger level Trigger slope Common Separate Masking Noise rejection 25 mVrms DC to 100 MHz 55 mVrms 100 MHz to 120 MHz x l xlO and xlOO 25 mVrms to 500 mVrms at xl DC to 100 kHz 100 Vrms xl 150 Vrms xlO or xl GO 100 kHz to 120 MHz 5 Vrms xl 50 Vrms xlO or xlOO DC or AC coupled or AUTO AC coupled Approx 1 M 2 30 pF COM A approx 500 k 2 10 ns Approximat...

Page 15: ...oltage 2 5 x 10 7 100 V 10 Internal reference output Frequency 10 MHz Output voltage 1 Vp p to 2 Vp p Output impedance approx 500 2 External reference input Frequency 10 MHz Input voltage 1 Vp p to 10 Vp p Input impedance approx 500 tl 2 2 General Specifications Display 8 decimal digits Green 7 segment LED display storage method Sample rate 50 ms or hold Self check Counting operation check by inte...

Page 16: ...s Any 3 consecutive digits Output terminal Binding post Output impedance Approx 1 kH DA output is not done at the function of TOT High stability reference oscillator Stability Aging rate 5 x 1O 8 day Temperature characteristics 1 x 10 7 0 C to 40 C The internal reference output and external reference input specitications are the same as the standard time base 2 3 Options TR1644 Calculation Unit Ma...

Page 17: ...uipped with BCD output Equipped with D A converter TR1644 must be prepared separately TR5823H 5823H 5823H GP 5823H BCD 5823H DA Equipped with GPIB Equipped with BCD output Equipped with D A converter TR1644 must be prepared separately 2 4 Accessories Supplied 1 Powercab l e 1 I 2 Input cable A 0 10 3 6 1 50 0 I 3 Input cable MI 03 I 4 Slow blow fuse T0 4A AC100 120 Vac 2 2 5 High frequency fuse TR...

Page 18: ...ardboard box having walls at least 5 mm thick Place packing of 40 mm or thicker under all around and over the unit 3 After covering the unit with packing fit the accessories in the box and place packing over them Close the cardboard box then secure the box with packing tape 3 1 4 General Cautions Before Use 1 Power supply The power voltage has been set at factory it is indicated above the power ca...

Page 19: ...A d a p t e r Fig 3 1 Power cable plug and adapter ...

Page 20: ... the AC line voltage You can see the selected AC line voltage on the face of the voltage selector R eplacem ent of a fuse C D Take a fuse out ofthe outlet on the rear panel Pull out with a flatblade screwdriver and so on Check or replace a fuse and then put it back into the outlet y Applicable fuse T a b le 3 1 Setting for AC line voltage AC l i n e voltage Displayo fs e tvoltages Applicablef u s ...

Page 21: ...he unit enters the standby state measurement is enabled immediately after the unit is POWERed ON Since the reference oscillator is not temperature com pensated the frequency fluctuates as shown in Figure 6 2 after POWER ON even if the unit has been set to STBY with the power cable plug connected to a power receptacle 7 Selection of time base signal Either the external or internal time base signal ...

Page 22: ...e lighted lamp is selected o key operation shifts the lamp indica tion in the opposite direction When TOT is selected the gate opens closes each time g is pressed For other functions the switch operates as a RESET switch See T for RESET 3 GATE Monitor lamp for counting operation The lamp is on during counting measurement When counting operation is done at high speed the MONITOR lamp lights at shor...

Page 23: ...7Inm 9 8 8 3 8 6 9 Fig 3 2 Panel description 3 6 ...

Page 24: ...ge of about 1V to 1 V H SENS Selects the input sensitivity FILTER When the switch is set ON the 100kHz approx low pass filter is activated on both A and B channels 13 LEVEL See AC AUTO DC Input coupling selector switch AC and AUTO cut out the DC compo nent and routes the AC component into the input circuit AUTO auto matically sets the trigger voltage to the 50 level of the voltage to be measured D...

Page 25: ...ns RMT The lamp goes on when this unit is in the remote state In this case no operation is made when a panel switch is pressed For GPIB remote control AC 100 V Indicates the available voltage Use 100 120 220 V ac at 10 or 240 V a c 4 10 T0 4A Indicates the rating of the fuse in use Use a 0 4 A slow blow fuse for 100 120 V ac use a 0 2A slow blow fuse for 220 240 V ac STD ADJ Trimmer for adjusting ...

Page 26: ...3 9 ...

Page 27: ...ounting operation The GATE lamp is on during counting measurement 0 OVER This lamp goes on when the measurement result exceeds the counting capacity 0 Number display section Green 7 segment LED display of 8 digits 0 Unit display section Displays the unit of the measurement result 0 MASK The signal to be measured is masked by pressing T to light the lamp within the switch Set the masking time with ...

Page 28: ...ENS Selects the input sensitivity n INPUT B Channel B input connector SEP COM A SEP is used for two separate inputs A and B whereas with COM A the signal to be measured on channel A is common to both channels INPUT A Channel A input connector AC AUTO DC See GATE TIME MULTIPLIER Same as in 3 2 1 TR5821 22 Panels For FREQ C the gate time becomes twice as long INPUT C Channel C input connector SENS S...

Page 29: ...lf diagnostics function which checks the micro processor two LSIs and existence of the reference signals When no error is found all segments and indicator lamps except the GATE lamp and decimal point go on about 2 seconds for checking Then this unit is initialized to FUNCTION CHECK GATE TIM E 10 ms Other functions OFF 2 10 000 MHz is displayed and the GATE lamp blinks 3 Display readout changes as ...

Page 30: ...lists the error messages the cause of each message may be found in any other place than those listed below Table 3 2 Error m essage types and error locations Error message Error location c o I L Microprocessor ROM RAM 01 Crystal oscillator or External reference signal is not provided with the selector switch being setto EXT STD IN C n u Panel switch r D c _ No EXPat DAC r n n C L _ A exists at DAC...

Page 31: ...ck mode 3 3 3 Panel Switch Check t t V t V a b c d e When each key is pressed the number that corresponds to the key is dis played at the location indicated by a to e If no number is displayed or a number that does not correspond to the key is displayed with press of a key the cause is assumed to be a defective switch TR1644 k e y s 3 14 ...

Page 32: ... A T POWER ON and check for CHECK operation Set FUNCTION to FREQ A 3 Connect the signal to be measured to INPUT A Set the SEP COM A switch to SEP 5 Set each switch according to the signal to be measured 6 Select a GATE TIME according to the required precision 2 FREQ B 1 mHz to 50 MHz TR5821 5822 5823 3 15 ...

Page 33: ...ignal to be measured 6 Select a GATE TIME according to the required precision T POWER ON and check for CHECK operation 2 Set FUNCTION to FREQ C 3 Connect the signal to be measured to INPUT C 4 Set the input sensitivity according to the signal to be measured 5 Select a GATE TIME according to the required precision GATE TIME for FREQ C will be 20 ms 0 2 s 2 s 20 s respectively 3 16 ...

Page 34: ...NPUT C Set the input sensitivity according to the signal to be measured Check that the display fluctuates then press the BURST switch Select a GATE TIME according to the required precision The burst width must be longer than the GATE TIME Pressing the MASK switch enables delay start Delay time can be set by MASK TIME control to initiate a belated measurement 3 17 ...

Page 35: ...ration Set FUNCTION to PERIOD B 3 Connect the signal to be measured to INPUT B 4 Set the SEP COM A switch to SEP Set each switch according to the signal to be measured 6 Select a MULTIPLIER according to the required precision 3 3 6 Time Interval Measurement T l A B 3 18 ...

Page 36: ...rding to the start and stop points on the slope 6 Set each switch to suit the signal to be measured 7 Select a MULTIPLIER according to the required precision 3 3 7 Frequency Ratio Measurement RATIO A B T POWER ON and check for CHECK operation Fig 3 11 Frequency ratio measurement 7 POWER ON and check the CHECK operation 2 Set FUNCTION to RATIO A B 3 Set the SEP COM A switch to SEP then connect the ...

Page 37: ...it then the GATE lamp in the display section goes on and counting starts 6 Press the switch again then the counting stops the GATE lamp goes out and the final counted value is displayed 7 When the HOLD lamp is not on 1 the previous totalized value is reset when the HOLD lamp is on L the previous totalized value is added to the current totalization If the counting result exceeds the display capacit...

Page 38: ...st for the period of masking time after being triggered by the signal 3 3 9 Masking Consider measuring Tx of the signal shown below When MASK is OFF Tx is measured Setting the masking time to Tm will enable the measure ment of Tx Tx Tx Tm Masking can be utilized in the FREQ B PERIOD B T l A B RATIO A B and TOT A functions 3 21 ...

Page 39: ...s exerting a stress on the fuse 4 Replacement procedures 7 Remove the connector barrel by turning the outer ring counterclock wise Remove the blown fuse Insert the fuse which is cut out as described above into the small hole in the center of the connector barrel Insertion is made easier by rotating the fuse or the connector Guide the slit on the BNC barrel to the stopper on the TR5823 con nector b...

Page 40: ...cted to the bus line should be first set Each of these devices may have one or more of the controller talker or listener roles During system operation only one talker can transmit data via the bus line while several listeners can receive that data The controller designates the talker and listener addresses and transfers data from the talker to the listener or the con troller itself talker may set ...

Page 41: ...ing signals are used on the control line ATN Attension Signal used to specify whether the data line signal is an address or command or some other data IFC Interface Clear Signal for clearing the interface EOI End or Identify Signal used upon completion of data transfer SRQ Service Request Signal used in making a request for con troller service from any device REN Remote Enable Signal used in remot...

Page 42: ...0 4 V or lower 48 mA High output voltage 2 4 V or higher 5 2 mA Low state 0 6 V or lower High state 2 0 V or higher Bus cable length The total bus cable length must be the number of devices connected to the bus x 2 m or less not ex ceeding 20 m Address specifications Any of 31 talk listen addresses can be set by operat ing the address selector switch on the rear panel TALK ONLY mode can also be sp...

Page 43: ... functions Code Function SH 1 Sourcehandshake AH1 Acceptorhandshake T5 B a s i ct a l k e r S e r i a lp o l l T a l ko n lymode Unaddressedt ot a l ki f a d d r e s s e dt ol i s t e n L4 B a s i cl i s t e n e r Unaddressedt ol i s t e ni fa d d r e s s e dt ot a l k SR 1 S e r v i c er e q u e s t RL1 Remotef u n c t i o n P P O No p a r a l l e lp o l lf u n c t i o n D C 1 D e v i c ec l e a ...

Page 44: ...utput when the measurement function is any of the following CHECK FREQ A FREQ B FREQ C S Indicates that the unit of output data is s This is output when the measurement function is either PERIOD B or TIME INTERVAL _1 i Indicates that the output data has no unit This is output when the measurement function is either RATIO or TOTALIZE 2 Data sign i_ space for for 4 5 ...

Page 45: ...eftmost 4 Exponential sign and data E 15 5 E 00 5 E 12 5 Data delimiters CR LF EOI 0 LF c EOI synchronous with the last data Three types of delimiters a to c can be selected by programs When HEADER of the address switch on the rear panel is set to OFF two space codes are output in the header position 4 6 ...

Page 46: ...ALIZE OFF F 8 TOTALIZE ON F3 though settable will not activate the operation in the TR5822 which is not provided with the FREQ C 2 Gate time multiplier setting codes Code Gatetime m u l t i p l i e r G 0 10ms X 1 G 1 100ms X 1 0 G 2 1s X 1 0 0 G 3 1 0 s X 1000 3 Delimiter setting codes Output delimiters Code D e l i m i t e r DL 0 CR LF EOI DL 1 LF DL 2 EOI 4 7 ...

Page 47: ... DCL Device Clear 7 Code recognition Invalid characters in remote codes are ignored Examples o F9 9 is ignored and the next data is read F is valid F90 Recognized as FO o G510 Recognized as G1 With input of 5 G5 is not valid 5 is ignored and the next 1 is read Since G1 is valid G1 is set as the remote code o FG32 Recognized as G3 FA32 Recognized as F3 If a valid letter F is followed by another val...

Page 48: ...put delimiter is LF or EOI When a controller that outputs CR or EOI is used add P at the end of the program code Example F1G1S3EP 44 5 Service Request Service request is made when the data is output on completion of measure ment Status byte When a service request is issued this unit sends the status byte shown below to the controller in response to the serial polling from the con troller MSB D8 D7...

Page 49: ... m max and not in excess of 20 m The following standard bus cables are available from ADVANTEST Table 4 2 Standard bus cables To be purchased separately Length Stock N o 0 5m 408JE 1P5 1m 408JE 10 1 2m 408JE 102 4m 408JE 104 3 When using bus cable connections do not use 3 or more connectors in combination Also check that the connector securing screws are properly tightened Bus cable connectors are...

Page 50: ...n the Remote State 3 The Remote settings such as function are retained when the state of the counter is changed from Remote to Local by the controller unless the POWER switch of the counter is set to OFF When the counter is returned to the Remote state after altering the state to Local and chang ing the settings by operating the panel switches the previous Remote settings are retained It appears t...

Page 51: ...to each other However not more than 3 connectors should be stacked toge ther in this fashion 4 5 3 Address Setting The universal counter talk address and listen address within the GPIB system are set by the rear panel ADDRESS switch This switch is a 7 bit 7 position DIP switch where any of 31 different addresses may be set by bits 1 to 5 positions 1 to 5 The 00100 setting shown in Fig 4 5 for exam...

Page 52: ... A 0 0 0 0 1 1 0 1 B 0 0 0 1 0 02 C 0 0 0 1 1 03 D 0 0 1 0 0 04 E 0 0 1 0 1 05 F 0 0 1 1 0 06 G 0 0 1 1 1 07 H 0 1 0 0 0 08 I 0 1 0 0 1 09 J 0 1 0 1 0 10 K 0 1 0 1 1 1 1 L 0 1 1 0 0 12 M 0 1 1 0 1 1 3 0 N 0 1 1 1 0 1 4 0 0 1 1 1 1 15 0 P 1 0 0 0 0 16 1 Q 1 0 0 0 1 1 7 2 R 1 0 0 1 0 1 8 3 S 1 0 0 1 1 1 9 4 T 1 0 1 0 0 20 5 U 1 0 1 0 1 2 1 6 V 1 0 1 1 0 22 7 w 1 0 1 1 1 23 8 X 1 1 0 0 0 24 9 Y 1 1 0...

Page 53: ...the pow er is restored N orm ally th e com plete system is initialized again Pow er failure processing for the o th er devices included in the system m ust also be considered 3 C ontroller in te rru p t during data tran sfer betw een devices In the G PIB system data tran sfer betw een devices apart from the co n troller is also possible If an in te rru p t is generated in order to add an o th er l...

Page 54: ...4 6 Program m ing N otes 4 6 1 Sim plified O peratio nal F low C hart D ata Sending 4 15 ...

Page 55: ...ested on com pleting the m easurem ent cycle K eep this in m ind at program p rep aratio n 1 W ith serial polling Addressed to talk Data is updated if measurement cycle is com pleted during this period SRQ is set to Data does not ON and data exist operation is updated waits fo r the next data 4 16 ...

Page 56: ... 2 When s e r i a lpollingi snot used Addressed to talk 4 17 ...

Page 57: ...4 6 3 D ata S ending T im ing 1 W hen m easurem ent is started b y program 2 W hen m easurem ent is started m anually or b y free run 4 18 ...

Page 58: ... A g a te tim e s o f le s s th a n 0 1 s a n d a h o ld in g s ta te m e a s u r e m e n t d a t a is c a p tu r e d w ith a tr ig g e r D E x a m p le fo r P C 9 8 0 1 s e r ie s u s in g N 8 8 B A S IC fo r M S D O S P r o g r a m 1 0 0 0 1 0 1 0 I S E TI F C 1 0 2 0 I S E TR E N 1 0 3 0 C N T 8 1 0 4 0 P R I N T C N T C 1 0 5 0 P R I N T C N T F I G l S 3 1 0 6 0 P R I N T C N T E 1 0 7 0 I N ...

Page 59: ...te tim e s o f le s s t h a n 0 1 s a n d a h o ld in g s t a t e in th is e q u ip m e n t 1 0 6 0 T r ig g e r s m e a s u r e m e n t A c o m m a n d o f s t a r ti n g m e a s u r e m e n t 1 0 7 0 R e a d s m e a s u r e m e n t d a ta 1 0 8 0 D is p la y s th e m e a s u r e m e n t d a t a o n C R T 1 0 9 0 G o e s b a c k to a lin e 1 0 6 0 1 1 0 0 C o m p le te s th e p r o g r a m D a ta...

Page 60: ...th e s e ttin g o f th is e q u ip m e n t 1 0 3 0 S p e c ifie s th e IN P U T A g a te tim e s o f le s s th a n 0 1 s a n d a h o ld in g s t a t e in th is e q u ip m e n t 1 0 4 0 T r ig g e r s m e a s u r e m e n t A c o m m a n d o f s ta r tin g m e a s u r e m e n t 1 0 5 0 R e a d s m e a s u r e m e n t d a ta 1 0 6 0 D is p la y s th e m e a s u r e m e n t d a ta o n C R T 1 0 7 0 G ...

Page 61: ... ly a n e q u ip m e n t s e n d s a s e rv ic e r e q u e s t CD E x a m p le fo r P C 9 8 0 1 s e r ie s u s in g N 8 8 B A S IC t h a t is n o t fo r M S D O S P r o g r a m 1 2 1 0 0 0 1 0 1 0 D F FS E G H 6 0 1 0 2 0 A X P E E K 4 H 9 F 3 1 0 3 0 AM A N D H B F 1 0 4 0 P O K E H 9 F 3 A 1 0 5 0 I S E TI F C 1 0 6 0 I S E TR E N 1 0 7 0 C M DD E L I M 0 1 0 8 0 C N T 8 1 0 9 0 O NS R QG 0 S U ...

Page 62: ... G S E G P T R 7 1 0 5 0 C le a r s th e s e ttin g o f a n in te r f a c e 1 0 6 0 S e ts R e m o te E n a b le 1 0 7 0 S e ts a d e lim ite r to C R L F 1 0 8 0 A s s ig n th e a d d r e s s o f th is e q u ip m e n t to a v a r ia b le 1 0 9 0 S p e c ify th e f i r s t a d d r e s s fo r th e S R Q ro u tin e 1 1 0 0 S p e c ifie s th e IN P U T A g a te tim e s o f le s s th a n 0 1 s a n d a...

Page 63: ...to o u tp u t d a ta is n o t s e n t 1 2 6 0 R e a d m e a s u r e m e n t d a ta 1 2 7 0 D is p la y s a s t a t u s b y te o n C R T 1 2 8 0 D is p la y s th e m e a s u r e m e n t d a ta o n C R T 1 2 9 0 S e ts a f la g to te r m in a te a n in te r r u p t s e r v ic e ro u tin e 1 3 0 0 P e r m is s io n to re c e iv e S R Q 1 3 1 0 G o e s b a c k to th e m a in ro u tin e D a ta S T A T ...

Page 64: ...lock diagram 5 2 O peratio n o f E ach B lock 5 2 1 In p u t C ircuit The in p u t circuit shapes any signal to be m easured in to a w aveform so the subsequent logic circuits can operate correctly A C AUTO DC SE N S F IL T E R LEV EL SEP C O M A SLO PE are provided for this purpose 1 A C A U TO D C W hen the w aveform at p o in t A in Figure 5 1 is as show n below the w ave form is shaped as on t...

Page 65: ... t t r i g g e r S L O P E J D A C A U T O O C S E N S x l x l O L E V E Lx l O O fi l t e r A m pa n d S c h m i t t t r i g g e r A u r c H i g h s p e e d l o g i c D a t am e m D a t am e m o r yd r i v e r o r yd r i v e r HDt W 1 c n L S I 8 0 G C L S I 8 0 S S M i c r o p r o c e s s o r n I N TO U T O E X T I N I f r I n t e r f a c e ...

Page 66: ...ENS x 1 V b V a OV SENS x 1 0 Waveform at p o in t B V B V a OV _ n _____ W h ov V b 10 Va 1 0 SENS x100 OV V a 1 00 If app rop riate SEN S is n o t selected cou nting m ay fail or the trigger p o in t m ay deviate w hen th e in p u t exceeds th e m axim um input voltage The a tte n u a to r is also effective fo r noise rejection F req uency m easure m en t FR E Q A C Input Shaped o u tp u t SENS ...

Page 67: ...r level changes w ithin a range o f ab o u t 1 V to 1 V th a t is th e trigger p o in t can be set in th e in p u t voltage range o f 1 V to 1 V F or SEN S xlO and xlOO th e in p u t voltage range appears to vary b e tw een 10 to 10 V and 100 to 100 V respectively L E V E L 5 SEP C O M A T he co u n ter has an in p u t co n n ecto r correspo nding to each input channel In m easuring the tim e inte...

Page 68: ...ting COM A IN PU T A 1 Channel A SEP being set 4 IN PU T B n Channel B As show n above this sw itching is m ade im m ediately after th e input co n n ecto r th erefo re A C A U TO D C SEN S SLO PE and LEV EL settings can be m ade in d ep en d en tly fo r each channel 6 SLO PE This is n o t used so m uch by fu n ctio n s o th er th an tim e interval m easure m en t how ever it is effective w hen th...

Page 69: ... con trolled by the m icroprocessor via the data bus LSI80 G C is an LS TTL LSI having an integration scale o f 500 gates Its toggle frequency is 60 M Hz or higher the frequency o f 120 M Hz can be realized b y externally connecting a 1 2 scaler LSI80 SS co n n ected to LSI80 G C is a CM OS LSI having an integration scale o f 2 000 gates and toggle frequency o f 12 M Hz or higher LSI80 GC Channel ...

Page 70: ...in th e least significant digit Signal to be measured Measurement gate A Measurement gate B C ounting by gate A C ounting by gate B This is expressed as follow s f T LSD o f th e display I X 1G w here fx M easured freq u en cy H z T g G ate tim e s The accuracies for d ifferent frequencies and gate tim es are show n below FR E Q C uses a divide by tw enty prescaler the accuracy is reduced by 1 dig...

Page 71: ...l o f interest 5 3 2 Frequency Measurement FREQ B T he low er th e E n E s ratio th e greater th e accuracy T he co u n ter naturally contains internal noise w hich m ust also be considered in determ ining accura cy The internal noise in this co u n ter is 100 iV rm s or less T h erefo re if the signal to be m easured does n o t have any noise and the in p u t voltage is 100 m V rm s T l O O x l O...

Page 72: ...equ ency m easurem ent F R E Q B See 5 3 2 5 3 4 T im e Interval M easurem ent T l A B This is basically the sam e as the frequ ency m easurem ent F R E Q B and period m easurem ent P E R IO D B T he m easurem ent tim e is dependent on th e signal to be m easured an d noise riding along w ith it causes trigger erro r w hich is calculated by eq u atio n l in 5 3 2 E qu ation T applies to a sine w a...

Page 73: ...tud e frequ ency v s Hz 10n periods Signal to be measured J W V W W V __i _ n _________ ______ Averaged period measurement Tim e interval averaging h 10 tim e s Signal to be measured _ r u i _ r u _ r u T i a Single tim e interval measurement _ n __________ _____________ Averaged measurement I J n 1 I I U I I I Fig 5 5 P erio d tim e interval averaging 5 10 ...

Page 74: ...ech n iq u e differs from th a t fo r th e period m easurem ent as show n th a t is co u n tin g is perfo rm ed con tinuo usly from m easurem ent start to end in p erio d m easurem ent w hereas in tim e interval m easurem ent cou nting is in te rm itte n t as show n in the figure on the preceding page and a 1 cou nt erro r occurs at each cou nting T h erefo re if the signal to be m ea sured is ver...

Page 75: ...e given to th e op eratin g environm ent 6 2 E qu ipm en t R eq uired fo r C alibration Equipm ent Specifications Recommended model Signal generator Frequency 10 1500 MHz O u tp u t voltage 1 m Vrm s to 1 Vrm s Pulse generator Pulse w id th 1 ms or less O u tp u t 100 m Vp p to 5 Vp p P eriod 10 ms or more D igital voltm eter R esolution 1 m V or more R6341A B Frequency standard S ta b ility 5 x 1...

Page 76: ...2 apply sine w aves o f 50 M H z 20 m V rm s and set FU N C TIO N to FR E Q B 3 A djust R 78 on the m o th er bo ard so th at th e w aveform s at TP 11 assum e a d u ty facto r o f 1 1 on the oscilloscope 6 3 2 Trigger Level 7 Setting AC AUTO DC DC SLO PE SEN S X 1 SEP CO M COM F IL T E R O F F G A TE TIM E 10 m s 2 A pply 10 M H z 25 m V rm s signal w ith the low frequency signal generator to IN ...

Page 77: ... ing the oscilloscope 6 3 4 ANS T S etting G A T E TIM E 10 m s FU N C T IO N F R E Q C SEN S X 1 AN S O N 2 A pply the signal o f 1300 M H z 17 m V rm s to IN PU T C w ith the signal gen erato r 3 R o tate R 27 on th e IN PU T C b o ard un til co u n t is ob tained 6 3 5 T im e Base I S etting 6 3 3 Squelch TR5823 only FU N C T IO N FR E Q A G A T E TIM E 1 s A C A U TO D C A U TO SLO PE SEN S X ...

Page 78: ...M COM F IL T E R O F F 2 A pply the signal w ith the pulse gen erato r o f pulse w id th o f 1 pis d u ty facto r o f 1 10 and am plitud e o f 2 00 m V p p to IN PU T A term inated w ith 50 12 3 Set FU N CTIO N to FR E Q A con nect the digital vo ltm eter to pin 2 o f J2 2 on the dum m y b o ard and ro tate R 72 to adjust the voltage to 100 m V See Figure 6 2 4 Set FU N CTIO N to FR E Q B con nect...

Page 79: ...p eratu re change by pow er flu ctu atio n affect th e stab ility o f th e reference oscillator Figure 6 2 show s the stan dard values o f w arm up tim e an d pow er fluctuation o f this unit The w arm up tim e required th e tim e to reach a frequ ency deviation o f 5 x 1 0 7 is 25 m inutes for th e T R 5 8 2 1 an d 15 m in utes fo r the T R 5 8 2 2 5 8 2 3 x1 O 7 Tim e F i g 6 3 S t a b i l i t y...

Page 80: ...ecuted 4 F u nction can cellation key C ancels the calculation 5 Shift m o nitor M onitors th e shift key op eratio n 6 S F T S H IF T key E nables fu nctio ns o f labeling sepia colored area above th e fu n ctio n keys 7 EXE E X E C U T E key E xecutes calculation w ith the m easurem ent value 8 RD R E A D key R eads o u t the data already loaded contents o f registers H and L 9 EXP E X PO N E N ...

Page 81: ...w 0 Pull o u t th e cen ter h o o k o f th e m etal plate F it the h o o k o f th e m etal plate in to th e sq uare cavity at the b o tto m o f the co u n ter and th e m ale co n n ecto r to the fem ale co n n ecto r then press dow n fo r secure m ou n tin g ...

Page 82: ...7 3 ...

Page 83: ... TIM E 10 m s 1 1 A d d itio n o f m easurem ent value fo r su b tractio n add a negative value 1 23 1EXPl 6 1 11EXE 1 8 770M X 1 M ultiplication o f m easurem ent value by a co n stan t 60 V EX E 600 00M r I D ivision o f a co n stan t by m easurem ent value 1 I llEX El 100 00 n DACl R esolution fixing and offset D A conversion m o d e 5 0 0 lE X P l fDACl IEXE 1 500 1 Exponential digit o f LSD C...

Page 84: ... F T l EXEj 50 00 k 7 4 N otes on Use 1 Be sure to set a num erical value before executin g an o th er calculation afte r executin g A M AX or M IN In failure o f num erical settin g tu rn off th e pow er and on again 2 The setting range is 9 9 9 9 9 9 9 9 E 9 3 F or jCOMl and SC Ll registers H and L are selected by pressing th e C key F or o th er fu n ctio n s register H alone is displayed 4 The...

Page 85: ...im e num erical value is set and fu n ctio n key is pressed since th e shift capabili ty is ab o rted L E D lam p goes off by pressing a fu n ctio n key 7 The calculation capability is invalid w hen the co u n ter is set to CHECK or TO T 8 W hen the O V ER lam p goes o n th e result is invalid Set G A TE T IM E M U LTIPLIER so th e O V ER lam p does n o t go on 9 W hen the x L results in 0 in the ...

Page 86: ...m phenol 5 7 4 0 5 0 0 o r equivalent 1 GN D 0 V 26 2 2 2 27 2 1 X 104 3 2 Exponent 28 2 2 4 2 2 29 2 3 5 2 3 30 2 6 2 31 2 X 1 0 5 7 2 Sign fo r 32 2 2 8 22 exponent part 33 2 3 9 2 3 34 2 10 2 35 2 X 1 0 6 11 2 1 X10 36 22 12 2 2 37 2 3 13 2 3 38 2 1 Function 14 2 39 2 15 2 1 X 1 0 40 2 16 2 2 41 2 U nit 17 23 42 2 2 18 2 43 2 3 19 2 1 X 1 0 2 44 2 I 20 2 2 45 2 Decimal point 21 2 3 46 2 2 22 2 ...

Page 87: ... 0 1 and 6 0 1 1 0 e x p o n e n t 7 0 1 1 1 8 1 0 0 0 9 1 0 0 1 Space 1 1 1 1 1 0 1 0 Decimal 103 1 0 1 p o in t 104 LOW ER 1 1 1 0 Function O verflow Space 0 1 1 1 Hz 1 1 1 0 s 1 0 1 1 U nit Space rpm exponential position at 10 1 in case o f s 1 1 1 0 1 0 1 0 exponential position at 10 in the absence o f u n it 1 1 0 0 8 2 ...

Page 88: ...g its o f th e d is p la y In th is c a s e i ts d e c im a l p o in t s h if ts to th e r i g h t s id e o f i ts u p p e r th r e e d ig its O nly one digit po sition is provided for the exp onen t part If the ex p o nen t part consists o f tw o digits an asterisk is prin ted at the u n it posi tio n w hen the un it is s rpm is p rin ted M o v e th e m in i j u m p e r to a p a i r o f th e p in...

Page 89: ...tric signal digit o f 106 fo r G O N O G O decision to activate th e audible to n e w ith o u t using the display o f this u n it The electric signal code th at corresponds to each display in the jCOM m ode is show n below u It 0 0 0 1 1 _ 1 1 0 0 1 0 u o 0 1 0 0 23 22 21 2 D igit o f 10 6 8 4 ...

Page 90: ...erfo rm ed w ith th e conversion resolution o f 1 kH z 103 by settin g the ex p o n en t p art to 3 0 EXPl 3 D A C EXEl O 1 kHz D isplay t H O O O v u u u u U u U 8 2 D A CONVERTER with TR1644 These 3 digits are D A converted T o add an offset fo r ex am p le 500 to this 500 EX Pl 3 DACl EXE D isplay I 1 CT I _IL _ J I _I I I I I U U These 3 digits are D A converted T he general fo rm at o f th e ...

Page 91: ...ty 1 x 1 0 7 0 C to 40 C In ternal reference o u tp u t F requency 10 M Hz O u tp u t voltage 1 V p p to 2 V p p O u tp u t im pedance 50 0 12 ap p ro x E xternal reference in p u t F requency 10 M Hz In p u t voltage 1 V p p to 10 V p p In p u t im p edan ce 500 12 ap p ro x The high stability reference oscillator is stan dard on the T R 5823H 8 6 ...

Page 92: ...rem ent H V high voltage High voltage signal fo r TR 5820 IN A In p u t A INB Inp ut B IN D indicator B links to indicate the triggered state INH in h ib it Panel sw itch operation inhibited remote LCRY log carry Carry signal to con trol logarithm ic signal LOG logarithm ic signal 10n period signal to generate gate tim e MKSP mask stop Indicates term inatio n o f masking M K T masking tim e Mask t...

Page 93: ...n the inpu t A measurement SLPB slope B Triggers on the leading and tra ilin g edges in the In p u t B measurement SRST scaler reset Reset signal o u tp u t term inal fo r scaler STA start STP stop STD standard STR strobe Strobe signal fo r data bus STRB strobe Strobe signal fo r display data X TL crystal Internal tim e base fo r LSI connected to coil A 2 ...

Page 94: ...he signal to be m easured A utom atic Filter C u to ff frequency is au to m atically selected according to the incom ing fre quency to elim inate random noise o r noise add ed on the input signal th ereb y preventing errors associated w ith noise A utom atic filter m akes up fo r the disadvantages th a t th e A N S cap ability co n trib u tes little to the suppression o f random noise im pulse noi...

Page 95: ...asure m ents accrues In using th e averaging fu n ctio n th e 1 cou nt erro r m ust be guaranteed to occur at random A co u n ter usually sends th e signal to be m easured to the co u n ter gate circuit com p letely asynch ron ous w ith the in tern al tim e base an d th e error can be regarded to occur at random B andw idth F or electro nic co u n ters noise is a cause o f cou nting errors an d m ...

Page 96: ...isplay th e frequency is called the reciprocal m eth o d T he m ain feature o f this m eth o d is th a t in period m easurem ent it enables frequ ency m easurem ent o f high resolution and high precision up to the order o f the internal tim e base F o r exam ple let th e tim e base be 100 x 10 9s then 7 digit display is alw ays possible w hen a frequ ency 1 0 M Hz or less is m ea sured at a gate t...

Page 97: ...ides th e in p u t frequencies by a facto r o f n w ith a divider for counting See the figure below In this case th e cou nting result is 1 n o f th e actual frequ ency th erefo re the tim e base is m ultiplied b y n to display the frequency m easurem ent This requires a gate tim e equal to n tim es th at required for the direct cou n tin g m eth o d w ith the sam e gate tim e the resolution is 1 ...

Page 98: ...h e ex tern al tim e base Tim e E xpander M ethod The cou nt erro r caused by th e relationship betw een th e electronic co u n ter internal tim e base fo r exam ple 10 M H z and the tim e interval to be m easur ed or 1 cycle tim e is used as a significant tim e value Let the difference tim e occurring at th e leading edge o f th e tim e to be m easured be A T j and the difference tim e occurring ...

Page 99: ...level also called th e threshold value fo r the co u n ter to sense it as a signal and m easure it This level is called th e trigger level The level can usually be varied w ith a p o ten tio m eter etc Trigger M onitor O u tp u t A signal o u tp u t from the trigger m o n ito r circuit as an auxiliary m eans w hen a co u n ter is m easuring tim e interval An osciloscope w ith Z axis m odu lation t...

Page 100: ...D im ensions of chassis 2 ...

Page 101: ... For installation w ith o u t th e T R 16 44 Unit mm Name Stock No A B C D Panel mount set A 02006 Rackmounting panel EIA specifications A02407 A 02408 with the TR1644 89 132 458 482 Rackmounting panel JIS specifications A02208 A02209 with the TR1644 100 149 456 480 ...

Page 102: ...0 o M r Y I y 5 y I 9 f l r t E f r f l i i f l 55 __ __ __ __ o o i i i i i 11 I _ _i i L i o O O _ I l l _ l _i 0 0 0 1 Ilf fU N C TP O N G Tl TW C II O I IM Tin l l X J a y 00 CO C O FRONT VIEW REAR VIEW ...

Page 103: ...SIDE VIEW Ut TR5821 EXTERNAL VIEW ...

Page 104: ...F R O N T VIEW REAR VIEW ...

Page 105: ...4 280 u TR5822 EXTERNAL VIEV ...

Page 106: ...FRONT VIEW R EAR VIEW ...

Page 107: ...SIDE VIEW U nit TR5823 EXTERNAL VIEW ...

Page 108: ...101 75 tOaOOQQ Oa QC QOj 5 kS a a a a o o o o a a a y TOP VIEW FRONT VIEW 102 ...

Page 109: ...27 SIDE VIEW Unit mm TR1644 EXTERNAL VIEW ...

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