Enerpac Edi62 series User manual

Instruction Manual for MODEL EDI62SInstruction Manual for MODEL EDI62S 1/12

ED-34828

2008.10

1 Before Using the Unit

Thank you for purchasing our quality designed and manufactured EDI62S

Series. Before unpacking the unit, check for damages during transporta-

tion. If you have noticed any damage, directly contact us or our distribu-

tor.

1.1 Type Identification

Each model number of the EDI62S series has its general specifica-

tions, and the following describes each note and the meaning. Before

using the unit, check that the model number and specifications of the

delivered unit match those of the product you ordered. For optional

units, see the separate instruction Manuals.

1.2 Accessories

2 Mounting Method

2.1 Panel Cut Size

Cut the panel to mount the EDI62S series in accordance with the

illustration below:

The recommended panel thickness is 0.8 to 5.0mm.

2.2 How to Mount the Unit on the Panel

Mount the EDI62S series to the panel in accordance with the illustra-

tion below:

3 Terminals and Connections

3.1 Power supply connections

3.2 Input Signal Connections

3.3 Comparator Output Connections

Each unit is not replaceable by the cus tomer.

Caution

！

⑤AC POWER

⑥AC POWER

③NC

④NC

①NC

②NC

⑤NC

③NC

④NC

①DC POW(+)

②DC POW(-)

⑥NC

Top

Bottom

5.8 mm or

less

5.8 mm or

less

Suitable solderless terminals

AC pow er supply DC pow er supply

(1) Remove the mounting band and insert the cas e

fr om the f ront of the panel.

(2) Fix the case using the mounting band from the

rear of the panel.

(1) T h e r e c o m m e n d e d p a n e l th i c k n e s s is 0 . 8 to 5 m m .

(2) D o n o t i n s t a l l t h e u n it i n l o c a t i o n s w h e r e i t i s e x p o s e d t o d i r e c t s u n l ig h t ;

w h e r e a m b i e n t e m p e r a t u r e o r h u m i d i t y d o e s n ' t m e e t t h e r e q u i re m e n t s b e l o w ;

o r w h e r e a d r a s ti c c h a n g e i n t e m p e r a t u r e m a y a u s e c o n d e n s a t i o n .

A m b i e n t t e m p e r a t u r e : 0 t o 5 0 ℃

A m b i e n t h u m i d i t y : 3 5 t o 8 5 %

(3) D o n o t i n s t a l l t h e u n i t w h e r e i t i s e x p o s e d t o d u s t , p a r t i c le s , c h e m i c a ls h a r m f u l t o

e l e c t ri c c o m p o n e n t s , c o r r o s i v e g a s e s , e t c .

(4)

D o n o t i n s t a l l t h e u n i t w h e r e i t i s e x p o s e d t o e x c e s s i v e v i b r a t io n o r s h o c k .

(5)

I n s t a ll t h e u n i t h o r i z o n t a ll y ; o t h e r w i s e , v e n t i l a ti o n w i ll b e a d v e r s e l y a f f e c te d a n d

m a y r e s u l t i n d e t e r io r a t i o n .

(6)

W h e n t h i s u n i t i s i n s t a ll e d i n s i d e o t h e r e q u i p m e n t , p a y a t t e n ti o n t o t h e h e a t

r a d ia t i o n a n d k e e p t h e h e a t i n s i d e t h e e q u i p m e n t 5 0 ℃ o r b e l o w .

Ca u tio n

！

Caution

！

(1) Applying a voltage or current exceeding its maximum permissible value may c ause the unit to be

damaged.

(2)

(3)

(4)

(5)

For the purpose of f unctional improvement, the information w ritten herein may be c hanged w ithout

prior notice.

Alw ays use the unit within the specif ied voltage range; otherw ise, it may cause a f ire, electric

shock or personal/equipment damage.

Information contained herein is considered accurate to the best of our know ledge. If you have any

question or c omment on the inf ormation, please contact us or our distributor.

Read this manual carefully and thoroughly before s tarting to operate the unit, and keep the

manual available for future reference.

120 mm or more

70 mm or more

+0.6

-0

92 -0

+0.8

Instruction Manual for EDI62S Series

Digital Straingauge Meters

12/12

(ED-34824)

Unit indication label

Accessory Quantity

6-p terminal cover 3 pieces

1 each

Mounting band 2 pieces

Suitable solderless termin als

5.8 mm or

less

5.8 mm or

less

Top

Bottom

①+SIG (D ) sensor input (+)

②-SIG (B ) sens or input (-)

③+EX C (A) se nso r supply pow er (+)

④-EX C (C) sensor supp ly power (-)

⑤AG (E) analog ground

⑥NC spa ce terminal

Display Descriptio n

Indicates that each judgment value of comparator data or the size of

hysteresis param eters does not meet the condition s.

Indicates that a signal exceed ing the measure ment range h as been

applied.

Indicates that an input signal once exceeded the measurem ent

range, but has returned to the me asurab le range with the peak hold

function activated.

Indicates th at the unit is waiting for an A/D converter input or that

power-ON delay tim e is va lid.

Indicates that digita l limiter HI and dig ital lim iter LO of sca ling data

have the s ame value.

Indicates that analog output HI and analo g output LO of scaling data

have the s ame value.

Linearize data error

Indicates that full-scale input v alue and off-set input va lue of scaling

data have the sam e value.

* Turn ing power ON with th e Enter ke y and Mo de key held down causes all the

para meters to return to the initial values (defaults).

Memory switch area, checksum error of ma in memory

Calibration data a rea , checksum error of main memory

Memory switch area, checksum error of sub-memory

Calibration data area, checksum error of s ub-memory

Condition data area, check sum error

Press the Mode key for a prolonged time to load the initial values.

Scaling data area, chec ksu m error (for e ach pattern)

Press the M ode key fo r a prol onged tim e to load the initial values o f each

pattern.

Com parato r data area, c hecksum error (for e ach pattern )

Press the M ode k ey for a prolonged tim e to loa d the initia l valu es of each

pattern.

Calibra tion data ar ea, checksum error (for e ach pattern)

Press the M ode key fo r a prol onged tim e to load the initial values o f each

pattern.

Shift data area, checksum error

Press the Mode key for a prolonged time to load the initial values.

Linearize data area , checksum error

Press the Mode key for a prolonged time to load the initial values.

Display Descriptio n

*2 + time de lay +(*1 ×2)+50 0μs+*3

Time de lay + (*1× 2)+500μs +*3

Internal

sam pling

Specified

sam pling

S/H terminal

Com parato r

output up date

Start/ho ld type A

Internal

sam pling

Specified

sam pling

S/H terminal

Com parato r

output up date

Start/ho ld type B

10 Error Message

10.1Error Indication during Measurement or Setup

10.2Memory Failure Error Indication

11 Timing Charts

12 Warranty and Service

12.1Warranty

The warranty period of the product is one year from the date of

delivery. If a failure occurs during this period that is clearly judged to

be caused by a defect ascribable to Asahi Keiki, we will repair the

failure or replace any defective parts without charge.

12.2After Sales Service

Under strict quality control measures, this product was manufac-

tured, tested, inspected and shipped. Should a defect in manufacture

or workmanship be identified, please return the product to our dis-

tributor or directly to us. It would be highly appreciated if you could

give a detailed account of the fault and enclose it with the product.

*1 Specified sampling

AVG

setting

Sampling speed

1041.65 times/sec

2 520.825 times/sec

10 104.165 times/sec

52.0825 times/sec

20.833 times/sec

AVG

setting

100

Sampling speed

10.4165 times/sec

200 5.20825 times/sec

400 2.604125 times/sec

800

1000 1.04165 times/sec

2000

5000

0.520825 t imes/sec

0.20833 times/sec

*2 External start signal

*3 Time delay for alarm output

Relay output: 10 ms max.

The width of the external start signal must be from between 500μs to a specified sampling cycle. A time

delay can b e set for the external start using the S /H delay time parameter of the condition data.

The sampling speed is determined by the AVG parameter setting of condition data as shown in the table below:

1.3020625 times/sec

260.4125 times/sec

130.20625 times/sec

Sampling cycle

Approx. 48 m s

Approx. 19.2 ms

Approx. 960 s

Approx. 1.92 ms

Approx. 3.84 ms

Approx. 7.68 ms

Approx. 9.6 ms

Sampling cycle

Approx. 4.8 sec

Approx. 1.92 sec

Approx. 96 ms

Approx. 192 ms

Approx. 384 ms

Approx. 768 ms

Approx. 960 ms

Photo coupler output: M aximum 20 0μs

Illustration of the rear

Input unit C om parato r output unit Analog output unit Power su pply unit

ＥＤＩ６２Ｓ

Power supply AC:100 to 240V AC±10%

DC:12 to 48V DC±10％

－

Suitable solderless terminals

5.8 m m or

less

5.8 m m or

less

Top

Bottom

①HI a (H I output a contact)

②HI c (HI output CO M)

③GO a (GO o utput a contact)

④GO c (GO output COM)

⑤LO a ( LO outpu t a contact)

⑥LO c (LO output COM)

Customer service

Bessho-chou 85-7, Saitama-shi, kita-ku

TEL +81-048-662-4911

Saitama-ken 331-0821, Japan

ENERPAC JAPAN

FAX +81-048-662-4955

WEB http://www.apj.ne.jp

Instruction Manual for MODEL EDI62SInstruction Manual for MODEL EDI62S 2/12 11/12

3.4 Analog Output connections

4 Parameter Settings

4.1 Display Unit

Names and major functions

①HOLD

②PH

③DZ

④R.RESET

⑤NC

⑥NC

⑦COM

⑧A.O UT V(+)

⑨A.O UT I(+)

⑩A.O UT COM(-)

Top

Bottom

Terminal Function

S/H

R.RESET

"Start/hold " control term ina l. The "hold" state is tu rned on when this terminal is at the same potential as the COM

term inal or short-circuited.

"Peak hold" contro l term inal. The peak hold function is turned on when this termin al is at the same potential as the

COM terminal or short-circuited.

"Digital zero" control terminal. The digital zero function is turned on when this terminal is at the same poten tial as the

COM terminal or short-circuited. This setting is valid only when the external control terminal is selected as the control

method for digital zero using condition data.

"Relay reset" control terminal. The relay reset function is turn ed on (only for the meter relay) when this term inal is at

the same potential as the COM terminal or short-circuited.

COM External control’s common terminals, which are at the sam e potential as the LO or AG terminal for the input circuit.

A.OUT V(+)

A.OUT I(+)

A.O UT COM(-)

Voltage output terminal of analog outp ut.

Current output terminal of analog output.

Common terminal of analog output.

Insulated from input LO or AG term ina l/external control COM term inal.

⑨ ⑩ ⑪ ⑫

H H

H I

G O

L O

L L

R E P H D Z T Z

M E P 1 P 2 P 3

Ente r Mo de

④ ⑤ ⑥ ⑦ ⑧

①

②

③

Jog 3

Location Nam e Major function

①

②

③

Displays results of judgment w hen used w ith meter relay.Judgment m onitor

Main monitor Displays a measured value, menu name or a value at the time of parameter setting.

Sub m onitor 1

④

Displays a judgment value when used with meter relay; displays a maximum value, etc. when used without

meter relay.

⑤

Sub m onitor 2 Displays a judgment value when used with meter relay; displays a maximum value, etc. when used without

meter relay.

⑥

⑦

⑧

⑨

⑩

⑪

⑫

Jog 1

Jog 2

Enter

Mode

Shift

Increment

Menu and value selection at the time of parameter setting; pattern selection when used with Increment.

Changes judgment values when used with the meter relay; sets a current measurement value to a

judgment value; switching maximum values, etc. w hen used without meter relay.

Changes judgment values when used with the meter relay; sets a current measurement value to a

judgment value; switching maximum values, etc. w hen used without meter relay.

Switches to the parameter setting mode.

Changes modes at the time of parameter setting; switches to the memory mode at the time of normal

measurem ents (when this button is pushed and held.)

Selects digits at the time of parameter setting; DZ control at the time of normal measurements.

Changes values at the time of param eter setting; pattern selection at the time of normal measurements

(when this button is pushed and held); special operations

R E

P H

D Z

T Z

M E

P 1

P 2

P 3

Illuminates when the unit is set to the remote mode via comm unication function.

Illuminates when peak hold, valley hold, or peak-valley hold is turned on.

Illuminates when Digital Zero is turned on.

Illuminates when Tracking Zero is turned on.

Illuminates when Digital Zero Backup is turned on.

P 1

P 2

P 3

Pattern 1 Pattern 2 Pattern 3 Pattern 4 Pattern 5 Pattern 6 Pattern 7 Pattern 8

O F F O F F

O N

O F F

O N

O F F O N

O F F

O N

O F F O N

O F F

O N

Function monitor

8 Output Functions

8.1 Comparison Output Function

The series allows tow judgment values of HI, LO to be set up with

respect to the measured value (indicated value) and the judgment

result to be output by relay contact output. For the contact rating, etc.,

see the output specifications.

8.2 Analog Output Function

The series can output an analog signal with respect to the indicated

value. There are four types of outputs: 0 to 1V, 0 to 10V, 1 to 5V, and

4 to 20mA, which can be selected using condition data. Also, any

scaling can be applied.

9 Specifications and External Dimensions

9.1 Input Specifications

9.2 General Specifications

Digital z ero ON . （Th e display is Zero .）

The d isp lay vanishe s to the correc tion at the fifth times of sampling because

of 3 digit or less the display.

It doesn't correct it because it comes off from the correctio n value .

The d isp lay vanishe s to the correc tion because of 3digit or less it.

①

②③

④

⑤

Setting example

Tracking zero co rrection tim e　5（It corrects it e very fiv e tim es of samp ling.）

Tracking zero co rrection wid th 3（Correction value 3digit）

* It becomes ba sic s am pling (about 960µs)× av eragin g tim es w ith sampling.

When the average frequen cy is 5 0 in this example, it becomes a co rrection of

each about 240ms (about 960µ s×50 times ×5).

Tracking

zero start

Five tim es of sampling

(Tracking zero correction cycle）

Digital zero O N

Display value

Tracking zero width

① ② ③ ④ ⑤

-1

-2

-3

（Display）

9.3 Output Specifications

9.3.1 Comparison Output

9.3.2 Analog Output (PWM)

9.4 External Dimensions

The PS voltage m ust be applied or shut dow n at once (n ot gradually).

Take at least a 10-second interval between a shutdown and startup.

Caution

！

10kΩ or more

Loa d resista nc eOutput type

Resolution :M axim um eq uivalen t to 14 b its

(I depend on outpu t ind ication se tting .)

Scaling : Digital scaling

Response spee d

Convers ion sys tem :P WM conversion

Accuracy

0 to 1V

0 to 10V

1 to 5V

4 to 20m A

±(0.5% of FS) App rox. 0.5 seco nd

550Ω o r less

Ripple

50mVp-p

25mVp-p

(1) Analog output circuits and external control circuits are insulated.

(withstand volta ge 5 00V DC, one m inute)

(2) COM term inals of external control circuits and LO terminals of input

circuits have the same e lectric potential at direct current.

Caution

！

ＥｎｔｅｒＭｏｄｅ

0. 5μV/dig it (S en s o r p o w e r : 5 V ), 1μV/d igit (S e n s o r p o w e r : 10 V)

Sensor

pow er

10V

Zer o adjusting

range

-1 to +1 mV/V

Span ad jus ting

range

1 to +3 mV/V

Measu rement

range

-4 to + 4m V/V

Error

(23℃±5℃;35 to 85％)

±(0.1％of FS +2digit)

Sa m pling ra te M a x im um a pp ro x . 1 0 0 0 tim es/s eco n d

M inim um input

se n s itivity

Senso r power 5V DC ±5％ 60 m A, 10V D C ±5 ％ 3 0 m A

* Th e e rro r is a pp lied w h e n the s a m pling ra te is 20 tim e s/seco n d o r le s s .

Display : Main display : Red/green 7-segment display

(character height : approx. 20 mm)

Sub display : Red 7-segment display

(character height : approx. 6 mm)

Display range : -9999 to 9999

Operational temperature :

0 to 50℃35 to 85%RH

-10 to 70 ℃, 60%RH or less

Storage temperature

External dimension : 48mm (H) x 96m m (W) x 99.5mm

Withstand voltage :

PS-input, output : 1500V AC, 1 minute

PS-input, output : 500V DC, 1 minute

Input-output : 500V DC, 1 minute

AC PS

DC PS

Input-output : 500V DC, 1 minute

Output-output : 500V DC, 1 minute

Power supply : AC PS

100 to 240V AC ±10%

DC PS

12 to 48V DC ±10%

Power consumption : AC PS

Maximum load : Approx. 8VA at 100V AC

DC PS

Maximum load : Approx. 7W at 24V DC

Weight : Approx. 450g

Insulation resistance : AC PS

DC PS

Among the above terminals : 500V DC 100MΩor more

Case-PS, input, output : 1500V AC , 1 minute

Indicated value ＞Upper limit judgment value

Conditions for comparison

Hysteresis : Can be set in the range of 1 to 999 digits for each judgment value

Operating speed : Depends on the sampling rate

Judgment value setup range : -9999 to +9999

Lower limit judgment value ≦Indicated value ≦Upper limit judgment value

Lower limit judgment value ＞Indicated value

Judgment result

Contact quantity

Contact rating

Relay contact ×3

250V AC 2A, 30V DC 2A

●Relay contact output

●Photo coupler output

Output quantity

Contact rating

Photo coupler ×3

Output rating:Sink current 20mA max. Voltage applied 30V max.

Output saturation voltage: 1.2V or less at 20mA

Instruction Manual for MODEL EDI62SInstruction Manual for MODEL EDI62S 10/12 3/12

6 Memory Mode

It is possible to display maximum value, minimum value, (maximum

value - minimum value) and input value on the main monitor. Long

pressing the Mode Key results in displaying the maximum value. Press

the Enter Key to return to normal display.

Measured maximum value, minimum value and (maximum value - mini-

mum value) are always stored in memory (with the power turned on)

and these data values are cleared by long pressing the Mode Key. In

addition, each of these maximum value, minimum value and (maximum

value - minimum value) is displayed in red, while the input value is

displayed in green.

7 Each Control Functions

7.1 About Each Control Function

If any optional unit is installed, the Start/Hold, digital zero, peak hold

and pattern select control functions can be used. In addition, the digital

zero and pattern select functions can be controlled through front key

operation.

* Caution : The COM terminal of the external control circuit and the LO

terminal of the input circuit have the same potential in terms of direct

current.

7.2 Start / Hold Function

The Start/Hold function holds the display at any timing, which can be

set in type A or type B using condition data. Type A is the free run

mode, in which you short the S/H terminal with terminal COM or make

these terminals have the same potential from the free-run status to

hold the indicated value and comparison judgment value. Type B is the

one-shot mode. In this mode, you short the S/H terminal with terminal

COM or make these terminals have the same potential from a hold

status to output the indicated value and comparison judgment value

once. For this, see the timing chart below.

7.3 Digital Zero Function

The Digital Zero function is used to set the displayed value to zero at

any timing and then display deviation from that point. Additionally, the

Digital Zero function is activated or deactivated by terminal control or

through front key operation.

* Terminal control or front key operation is selected (set) by using

condition data. If the optional unit is not installed, only the front key

operation becomes valid.

7.4 Peak hold Function

The peak hold function is used to hold maximum value (peak hold),

minimum value (valley hold), and (maximum value - minimum value)

(peak valley hold) and generate the output corresponding to each of

these values. In addition, maximum value (peak value), minimum value

(valley hold) or (maximum value - minimum value) (peak valley hold) is

selected (set) by using condition data. Both types of peak hold func-

tion are available: Type A and Type B. Type A is of the progressing type

which activates the peak hold function with the PH terminal shorted

with the COM terminal or the PH and COM terminals set to the same

potential to display each of these measured peak values (PH/VH/

PVH). Each peak value is cleared with the PH terminal opened. On the

other hand, Type B is of the result type which conducts measurement

while the PH terminal is shorted with the COM terminal or the PH and

COM terminals are set to the same potential to display, by opening the

PH terminal, each of these measured peak values (PH/VH/PVH) while

the PH terminal is shorted with the COM terminal or these terminals are

set to the same potential.

* If the displayed value overflows during peak hold measurement, no

overflow display can be released as far as that display is not returned

to normal display once.

7.5 Pattern Select Function

The pattern select function is used to store scaling data and compara-

tor data up to 8 patterns and be able to set any pattern to be used.

Pattern select control selects the number of patterns which can be

used by the pattern select setting in condition data. In addition, I oper-

ate the control of the pattern select function with front key.

7.6 Tracking Zero Function

The tracking zero function is used to internally and digitally conduct

the automatic correction of a zero-point shift. This function starts

functioning from the time when the digital zero function is activated.

Internal circuit : Pull-up at approx. 5V

(resistance value : approx. 10kΩ)

Control signal HI level : 4.2 to 5V with respect to term inal COM

Control signal HI level : 0 to 0.4V with respect to term inal COM

Mode

Enter

If the m ode key is pushed, it becomes

maximum value display.

＊The display changes sequentially .

Maximum →M nimum →（Maximum

ーMnimum）→Input →Maximum

Operation Method

Measurement operation

The m aximum value is displayed.

（Red）

The mnimum value is displayed.

（Red）

The value in which minimum value is

pulled from the maximum value is

displayed.

（Red）

The input value is displayed.

（Green）

All the values are cleared.　

＊"cLEr" is displayed in the main m onitor

for about one second.

Display usually.

Push and hold（About 3 seconds）

Front key control : The display at that time is assumed to be 0 by pushing the

shift key for about three seconds. Digital zero functions are

released again by pushing the shift key for three seconds.

Terminal control : The display at that time is assumed to be 0 by making it to

the terminal DZ, the terminal COM short-circuit or this

potential. 0 digital functions are released by opening the

terminal DZ.

Operation procedure diagram (Jog lever : Operation of front switch combination)

●Explanation of a figure of jog lever push tilt downside tilt upside

1 1

Enter

Scaling data pattern selection

Comparator data pattern selection

2or3

Set low layer values of the condition data.

Set low layer values of the scaling data.

Set low layer values of the com parator data.

Judgment value setting

Set a measured value as a reference .

Digit selection (from the

lowest digit to highest digit)

* Returns to measurement

after the highest digit.

2or3

Pattern selection

+ 2or3

+ 1 or + 1

Normal operation

1 1

Shift data setting

Digit selection (from the highest

digit to the lowest digit)

2 2

Increase or decrease a value.

Calibration data pattern selection Set low layer values of the Calibration data.

* I can set it by validating a linearize function by

condition data.

Decrease a value.

Increase a value.

2or3 2or3

Change the parameter selected.

1 1 Select a parameter to change.

Change the parameter selected.1

1 1 Select a parameter to change.

Change the parameter selected.1

1 1 Select a parameter to change.

Returns to measurement

after the highest digit.

2or3

Mode Shift data is reflected upon the

measurement data on the Main Monitor.

Change the parameter selected .1

1 1 Select a parameter to change .

How to set a low layer value (Condition data / scaling data / comparator data / Calibration data)

To change the selected parameter, push the center of Jog 1 or use the M ode key to move from the m enu selection

mode to value change mode.

Select the name of a parameter (shown on Sub monitor 2) you want to change by turning Jog 1 up or down.

or Mode

*While Sub monitor 2 flashes in the menu selection mode , Main monitor will flash in the value change mode.

or 1 1 1

Push the center of Jog 1 to choose the digit you want to change, and turn Jog 1 up or down to change the value.

1 1

If the parameter requires a value entry:

Turn Jog 1 up or down to choose a selection.

If the parameter requires a selection:

1 or Mode

Push the center of Jog 1 or use the Mode key to shift from the value change mode to the menu selection mode .

* While Sub monitor 2 flashes in the menu selection mode, Main monitor will flash in the value change m ode.

1 or Enter

Turn Jog 1 up or down to select the menu name of the parameter you want to change (shown in Sub monitor 2) or

return to measurement by pushing the Enter key.

Front key control : The pattern can be switched from P -1 to m aximum P-8 by

pushing the incremen t key for abo ut three sec onds.

Pattern 1 P attern 2 Pattern 3 Pattern 4 Patte rn 5 Pattern 6 Pattern 7 Patte rn 8

OFF OFF

OFF

OFF ON

OFF

OFF ON

OFF

Function monito r

Instruction Manual for MODEL EDI62SInstruction Manual for MODEL EDI62S 4/12 9/12

* I can set it by validating a linearize function by

condition data.

Change the parameter selected.

Operation procedure diagram (Operation only with front switch)

Enter

Select a parameter to change.

Change the parameter selected.

Select a parameter to change.

Change the parameter selected.

Select a parameter to change.

Set low layer values of the condition data.

Set low layer values of the scaling data.

Set low layer values of the comparator data.

Setting low layer values of the linearized data.

Pattern selection

Mode Shift data is reflected upon the measurement

data on the Main Monitor.

Change the parameter selected.

Select a parameter to change.

Memory mode

Mode Push and hold

Push and hold

Keep on pushing the button for automatic increments.

When you push the M ode key , modes will change in the order of the

maximum value, m inimum value, (maximum value-m inimum value)

and input value . If you push and hold the M ode key when you are in

the m emory mode, all the values in memory will be cleared.

Mode

Digit selection

Value change

Mode

5.7 Linearization Data Setting Examples

* Linearization data setting function

Linearization data can be used as a function to set 2, 4, 8, or 16 linearity correction points.

Input data are displayed when the linearization function is OFF. The value to be displayed in response to the input data is output data. For each linearity

correction point, input and output data must be set.

For example, when the linearization function is OFF, and you wish to change the displayed value on the meter from 0 - 1000 to 0 - 1200, set N01.I

(Correction Point 1 Input Data) and N01.O (Correction Point 1 Output Data) to 0, N02.I (Correction Point 2 Input Data) to 1000, and N02.O (Correction Point

2 Output Data) to 1200.

In this case, the line between Correction Points 1 and 2 behaves according to the linearity correction setting. When the value of the input data exceeds

that at Correction Point 2, the behavior of the output data is no longer affected by the setting (the value of the output data changes from 1200 to 1001).

When more than two correction points are set, the behavior of a line connecting two sequential correction points is different from that of the next two

in sequence.

* Conditions for setting linearization data

To set linearization data, the value of the input data at one correction point must be larger than that at the previous one.

N01.I < N02.I < N03.I < N04.I ??< N15.I < N16.I

How to calibrate the zero input (ZRIN) value and the span input (SPIN) value using an actual load or the equivalent input

Push the center of Jog 1 to choose the digit you want

to change, and move it up or down to change the

value. In the left figure, pushing the jog1 while the

least significant digit of “1.000”is selected, causes

the lower digits to also be displayed.

Push and hold the Shift key, then the current

measured value will be read as the setting.

Equivalent input calibration

Actual load calibration

Push and hold

1 or Mode 1 1 1

Caution

* Com parator judgment values can be set not only from Jog 2 and Jog 3 but also from the low layers of the comparator data.

1Press multiple times

Select a digit to change

Increase a value

Decrease a value

Mode

Change the selected digit

Save and return to measurement

Enter Return to measurement

Operation Method

Measurement operation

* Not displayed unless the value of the protect level parameter of the condition data is PL0.

* Not displayed unless the linearization parameter of the condition data is enabled.

Correction Point 1 Output Data Setting (setting method is the same as above)

Correction Point 2 Input Data Setting (setting method is the same as above)

Correction Point 1 Input Data Setting

Correction Point 2 Output Data Setting (setting method is the same as above)

Correction Point 16 Output Data Setting (setting method is the same as above)

* Not displayed when the value of the linearization parameter of the condition data is smaller than 16.

Instruction Manual for MODEL EDI62SInstruction Manual for MODEL EDI62S 5/128/12

0 1 2 3 4 5 6 7 8 9

A B C D E F G H I J K L M N O P Q

R S T U V W X Y Z

4.2 Numeric and Character Indications

4.3 Protection Levels

Each parameter of the EDI62S has an individual protection level, and by setting the protection level of the condition data, you can set an access level.

(For the protect level of each parameter, see the P.L. column of the tables in Section 4.4.)

The higher the protection level is, the less the number of settable parameters will be. If you set the protection level to the strictest LV3, you can change

the protection level only, and all the other parameters may not be changed. (No comparator judgment value can be changed using the jog switches in

this case.)

*The pr otec ti on level set at t h e t im e of sh i pm ent i s LV1. (Set ti ng s of disp lay color s , scali n g and jud g men t -relat ed val ues o n l y are

avai l able.)

5.6 Calibration Data Setting Examples

How to calibrate the zero input (ZRIN) value and the span input (SPIN) value using an actual load or the equivalent input

Push the center of Jog 1 to choose the digit you want

to change, and move it up or down to change the

value. In the left figure, pushing the shift while the

least significant digit of “1.000”is selected, causes

the lower digits to also be displayed.

Push and hold the Shift key, then the current

measured value will be read as the setting.

Equivalent input calibration

Actual load calibration

Push and hold

Mode

* The EDI62S series does not add the zero input value to the span input value.

Namely, the gradient and offset values for y=ax+b are obtained as follows:

Gradient (a) = (SPAN - ZERO)

(SPIN - ZRIN)

Offset (b) = (SPAN - ZERO) ×ZRIN

(SPIN - ZRIN) - ZERO

Calibration data pattern selection

Select a pattern to set.

* Patterns cannot be selected when the number of available patterns is set to 1 using condition data.

1 1

1Sensor power supply selection

1 1

Zero input value setting1

Mode

1 Select a digit to set.

1 1 Change the value for the selected digit

(equivalent input calibration).

the current measurement as the setting (actual load calibration).

Zero indication value setting1

Mode

1 Select a digit to set.

1 1 Change the value for the selected digit.

Mode

1 1 Change the value for the selected digit

(equivalent input calibration).

Mode

1 Select a digit to set.

1 1 Change the value for the selected digit.

Select a digit to set.

Operation Method

Press the Shift key for prolonged time to automatically read

the current measurement as the setting (actual load calibration).

Press the Shift key for prolonged time to automatically read

How to set a low layer value (Condition data/scaling data/comparator data)

Mode

Enter

Select the name of a parameter you want to change by pushing the Increment key .

Use the Shift key to choose the digit you want to change, and push the Increment key to set the value.

If the parameter requires a value entry:

Use the Increment key to choose a selection.

If the parameter requires a selection:

Use the Mode key to shift from the value change mode to the menu selection mode .

Use the Increment key to select the menu name of the parameter you want to change or return to

measurement by pushing the Enter key.

To change the selected parameter , use the M ode key to move from the menu selection mode to the value

change m ode.

Instruction Manual for MODEL EDI62SInstruction Manual for MODEL EDI62S 6/12 7/12

4.4 List of the Parameters

The parameters for the process signal measurement unit can be roughly divided into three types: condition data which deal with basic functions

including sampling time; scaling data which control measurement including input range; comparator data which deal with comparator output; and

calibration data which relating to calibration with a sensor.

4.4.1 Condition Data

4.4.2 Scaling Data

4.4.3 Comparator Data

4.4.4 Calibration Data

5 Setting Examples and Use Examples

5.1 Scaling Data Setting Examples

Set digital liniter,analog output and decimal point by 4.4.2 scaling data.

Set it in below of operation procedure diagram.

The digital limiter is the function that limits an input value to the relevant

set value even if a signal higher than or lower than the indicated value

set to DLHI or DLLO respectively is input. The setting condition is DLHI

> DLLO, and if this condition is not met, Err5 is caused, returning the

display to DLHI.

5.2 Analog output Scaling Setting Examples

The analog output sets the output value to the display value.

5.3 Comparator Data Setting Examples

●High and Low Judgment Type

The high and low judgment type allows you to directly set judgment

values in numerical values, which are checked against the indicated

value for judgment. It allows setting of two stages of judgment points: HI

and LO.

* The setting conditions are (HI judgment value - HI hysteresis) > (LO

judgment value + LO hysteresis). If any of these conditions is not met,

Err0 is caused, returning the display to the HI judgment value setting.

Jog SW 0

P.L.

PH Selection 0

Average time s

Average tim es of

movem ents

Step wide

Display colo r type

HI display colo r

GO display color

LO displa y color

Display blank level

DZ backu p

Line arize

TZ time

TZ c orrectio n range

Pow er on d elay time

Pro tection lev el

Unit num ber in dic ation

DZ control

P.SEL 0

Start/hold typ e 0

PH type 0

S/H del ay tim e 0

Setting ra nge or alternativesPar ame ter n ame

Menu ind ication

Conversion rate (av erage tim es of inter nal sampling ; sam pling time: ap pro x. 1ms) is selected.

Major setting p urpose a nd remarks

Sele cts the average time s of movements .F iltering e ffects: S mall<1(OF F)-2-4 -8-1 6-3 2>Big

Sele cts the range of display changes to ma inta in image display consistency .

(If this p arameter is set to 5, the low est digit w ill display eith er 0 or 5 only ).

Selects au tomatic (red in the H I or LO m ode or green in the GO m ode ) or m anu al setting for d isplay col or type .

Sele cts red or green as disp lay color at the tim e of HI judgment .*Only when CLR .T is M ANU.

Sele cts red or green as disp lay color at the tim e of GO judgment .*Only wh en CL R.T is M ANU.

Sele cts red or green as disp lay color at the tim e of LO judgment .*Only when CLR.T is MANU.

Sele cts the display brightnes s . <brigh t OF F-LV1-LV 2-LV3-ON >tu rne d off

Sele cts whe ther the jog S W is us ed or n ot .

Sele cts a type that operates when the P H function is turned on (peak hold /valley hold/peak-valley hold).

Sele cts w hether th e digital zero value i s backed up or not at the tim e when the unit is turned o ff .

Sele cts the number of pa tterns available fo r the pattern selection functio n .

Sele cts w hether th e linearize functio n is en abled /disabled and sets the n um ber of corr ection po ints .

Selects whether the tracking zero function is enabled/disabled and sets the correction time (setup value/conversion rate).

Sets th e time betw een the startup and actual star t of mea sureme nts (setup value x 1 s eco nd).

Sets the c orrection ran ge of the tracking ze ro fun ction .*Onl y when TR .T is set to a va lue other than 000 .

Sele cts the protection leve l to prevent operation m ista kes .High< LV3-LV 2-LV1-LV0 >Low

Sele cts w hether the code of a unit mounted at the time of startup is displayed or not .

Sele cts an operation type of start /hold (A: free run ; B: one sho t).

Sets th e dela y time at the tim e of startup (setup value x 1 ms).

Sele cts an operation type of peak h old (A : real-ti me display ; B: results display ).

Selects a control method of Digital Zero (SW: front key; TERM: external control terminal).

Initial value

(AV G)

(MAV)

(S.W D)

(CLR.T)

(HI.C L)

(GO .CL )

(LO.CL)

(BLNK)

(DZ.BU)

(LINE)

(TR.T)

(P.ON)

(PRO)

(U-NO.)

(S/H.T)

(PVH)

(PS)

(TR.W)

(S/H .D)

(PVH.T)

(DZ.C)

(J.SW)

～

Se ts t he up per li mit o f th e d isplay able rang e .

(An y value equal to or exce edin g the digi tal lim iter HI setting will no t be up dated and kept at the setup va lue .

Se lects an a nalo g out put r ange .

Sets the relationship between indica tions and analo g outputs .

Se ts the po sition of the d ecim al p oint .

Se ts the low er l imit of th e dis play able rang e .

(An y value equal to or below the digital li miter LO se tting wil l not be upd ated and k ept at the s etup value .

Analog o utput HI

Analog o utput LO

Decimal point

Analog o utput ty pe

Dig ital limiter LO

Dig ital limiter H I

P.L. Setting range o r alternativesParam eter nameMenu indication Maj or se ttin g purpose an d rem arksInitial value

(DL HI)

(DL LO)

(AO HI)

(AO LO )

(DP)

(A.OUT)

Each digit can be set

inde pen den tly

～

(SPIN) S p a n input va l ue 2 ～

(ZERO) Z e ro indica tion 2 ～

（SNSR） S e n s or po w e r s u pply 1

(ZRIN) Z e ro input va lue 2 ～

(SPA N) S p a n in d icatio n 2 ～

Se lec ts a sen sor po w e r s upply .

Se ts the re lation ship be tw een in p u t sig n a ls a n d the ir ind ica tion s .

P.L. Setting r ange or alternative sParameter name

Menu indication Major setting p urpose and rema rksInitial v alue

05000

4mA

20m A

10V

20000

-2000

When the indication varies between 0 to 5000,

corresponding analog output values should be 4 to 20m A.

Analog output

Indication value

Example 1

Analog output HI (AOHI)

Analog output LO (AOLO)

5000

Example 2

When the indication varies between 200.0 to -200.0,

corresponding analog output values should be 0 to 10V .

Analog output

Indication value

Analog output HI (AOHI)

Analog output LO (AOLO )

-2000

2000

Example 1

Above and below setup mo de

GO GOHI GO LO

Indicatio n values

Judgmen t

700

500

1000

400

900

200

LO jud gment value

HI judgm ent value

Hysteresis ran ge

* The hysteresis is effectiv e either in th e range low er than the H I judgme nt value or th at hig her th an the LO

judgment value .

●Tolerance Judgment Type

The tolerance judgment type allows you to set a nominal value and its

tolerances (XX%) to make judgment on the basis of the judgment

values calculated from these values within the instrument. You can

set one nominal value and one tolerance values.

For example, if the nominal value is set to 1000 and tolerances 10%

respectively, internal judgment values are 1100 for HI judgment value,

900 for LO judgment value.

5.4 How to Switch the Sensor power

5V DC or 10V DC can select by 4.4.4 Calibration data. Initial value

become 5V DC.

5.5 Shift Data Setting Examples

The shift function allows you to arbitrarily shift the display without

changing the inclination of an input signal. A setting example below

shows how to shift the indicated value by 100 digits.

Example 2

Error judgment mode

GO GOHI GO LO

Indic ation values

Judgm ent

1000

900

1100

Nom inal v alue

Hyste resis rang e

Upper side erro r

Lower side erro r

* Error is to be s et as a p ercentag e of the nominal value.

* The hysteresis is to be se t as an x -th digit of the indicatio n valu e.

* The hy steresis is effec tive either in the ra nge lower than the upper side error or that higher tha n the

lowe r side error.

1Press mu ltiple times

Mod e

It is m emorized.

Operation Method

Measurement opera tion

＊It is not displayed, except when the

protecting level of the condition data is PL0.

Shift data setting

2 2 2oror

The dig it is m oved, and the d igit

that w ants to change is selected .

Increase a value.

Decrease a value .

Enter

Return to m easure ment

HI judgm ent value

LO judgm ent value

HI logic

LO logic

HI hyste res is

LO hys teresis

Error 1

Nom ina l value

Com parator output type 1

Error 1 hyste res is 1

GO logic 0

Select ei ther [above or below ] or error c omparator type s.

Sets a H I judgment v alue. *Only w hen CO M .T is O/U.

Sets a LO judgment valu e . *Only w hen C OM .T is O/U.

Sets a nominal value . *Only when CO M.T is ERR.

Sets a n err or. *Only when CO M .T is E RR .

Sets a HI hysteresis value ( smaller than the se tup v alue.) *O nly w hen CO M .T is O/U.

Sets a LO hys teresis v alu e (larger than the setup value .) * Only when C OM .T is O /U.

Sets an error hysteresis (smaller o r larger than the setup values .) *Only when C OM .T is ERR.

Sets a H I output logic (N.O.=norm al ly open or N .C.=norm ally closed )

*Ou tput when the powe r is OFF is alw ays open .

Sets a GO outpu t logic (N.O .=norm ally ope n or N .C.=no rm ally closed )

*O utput whe n the pow er is OF F is alw ays open .

Sets a LO output logic (N.O.= normally op en or N .C .=n orm all y clos ed )

*O utput whe n the pow er is OF F is alw ays open .

P.L. Se ttin g range or alternativesPa ram eter nam e

Menu ind ication M ajo r setting purpose and remarksIniti al va lue

(LO-L)

(GO -L)

(HI-L)

(ER1.H)

(LO-H)

(HI- H)

(ERR 1)

(N.VAL)

(LO-S)

(HI-S)

（CO M.T ）

～

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