SHIMPO Instruments DT-501XD-FVT, DT-501XD, DT-501XD-CPT, DT-501XD-TRT, DT-501XA-FVT User manual

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Page 1

98211B

Digital Tachometer

Digital Tachometer/ Elapsed timecounter/ Time width meter/ Flowmeter

Standard input series Dierential input series

DT-501X/ DT-501F

Safety Requirements

Be sure to observe

Before operation, maintenance and inspection, please carefully read this instruction manual and follow it for proper use. Please carefully read all information related to this unit and safety, and precautions before use.

This instruction manual categorizes safety precautions as “DANGER”, “WARNING”, and “CAUTION”. Each of them is an important description related to safety. Be sure to observe.

Instruction Manual

Thank you for purchasing SHIMPO's Digital Tachometer DT-501X/ DT-501F. For instructions on how to use this product properly and optimally for a long period of time, please be sure to read this manual thoroughly before use.

When you purchase the product with optional equipment: Please refer to the operation manual of the optional equipment.

Before operation, maintenance and inspection, please carefully read this instruction manual and follow it

DANGER

WARNING

CAUTION

●Limited Warranty

● We are not responsible for damages resulting from negligence through failure to follow the instructions set out in this manual.

●

We are not responsible for damages resulting from earthquake and/or re unrelated

to us, actions by third parties, or any other accidents, intentional or through customer negligence, as well as from accidents caused by misuse or improper use under abnormal conditions.

● For information regarding assurance provisions, please read the attached warranty certicate.

Improper use by neglecting the following precautions may result in the potential for re, serious injuries, and/or death.

Improper use may result in serious injuries.

Improper use may result in minor injuries or property damage.

for proper use.

After reading, be sure to store this manual in a safe, convenient place where operators can always refer to it easily.

CAUTION

Electric Shock. Be sure to turn the power OFF when wiring as well as inspecting the unit.

Failure to do so could result in electric shock.

DO NOT block the ventilation holes on the side of the main unit. DO NOT put any foreign objects or materials inside the unit through these holes.

Failure to follow this could result in abnormal heat generation and/or malfunctions.

DO NOT touch the unit with wet (or sweaty) hands when inspecting or for wiring.

Failure to do this could result in electric shock.

Precautions before use

Power

●Be sure to use the unit under the specied voltage (AC power specications: 85 - 264VAC / DC power specications: 10.8 - 25.2VDC).

●Inverter power source cannot be used.

Input signal wire

●Connection wiring from sensors shall not be kept in the same or parallel conduit or cable as the power source, power or high voltage cables. If you fail to separate the wiring, noise may be superimposed on the signal wire, resulting in malfunctions.

●

Use shielded wire for input power connections with the shortest possible metal conduit.

Terminal

●

Check that the screws have not come loose due to vibrations after a certain period of time.

Operating environment

●Do not install the unit in the following places or conditions.

●●Places exposed to direct sunlight, or places where the ambient temperature exceeds a range of 0 - 45ºC.

●●Places where the relative humidity percentage exceeds a range of 35 - 85%, or places subject to condensation due to rapid change in humidity.

●●Places subject to corrosive and/or combustible gases.

●●Places subject to a large amount of dust, salinity, and/or ferric substance.

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●●Places susceptible to noise (including static electricity).

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INDEX

1. Installation to the Start of Operation

2. Unit Model

3. Specications

4. Component Part Names and Functions

5. External Dimensions

6. Installation to the Panel

7. Wiring to Power Source and Sensors (DT-501XA/DT-501XD)

8. Wiring to Power Source and Sensors (DT-501FA)

9. Basic Setting Procedure

10. Keys to be Used for Various Settings and Their Applications

11. Teaching Function Settings

12. About Mode

13.

When You Select Mode 1 (Digital Tachometer Mode) for Measurement

14.

When You Select Mode 2 (Elapsed Timecounter Mode) for Measurement

15.

When You Select Mode 3 (Time Width Meter Mode) for Measurement

16.

When You Select Mode 4 (Flowmeter Mode) for Measurement

17.

Setting Method of Functions (Excluding in the Test Mode, Common in Each Mode)

18. Comparator Function

19. Memory Function

20. Test Mode (Function to Check if the Unit is Operating Normally)

21. Error Display

22. Parameter List

23. Function List

24. Option -FVT/-FVC

25. Option -BCD

26. Option -TRT

27. Option -CPT

28. DT-501X / DT-501F series model list

Page 2

●1.

Installation to the Start of Operation

This unit is designed for use according to your measurement purposes. Before use, follow the procedures below from installation to the start of operation.

Check before use

Check before use p.2 - 4

• Unit model

• Specications

• Component part names and functions

• External dimensions

Memory function settings

(1) Press the MEM key once to display the MAX value. (2) Press the MEM key again to display the MIN value. (3) Press the MEM key once again

to display the normal measurement value. *You can use the unit without setting various functions.

p.17 - 19

Installation to the panel

View from the front

(1)

Installation of waterproof gasket

(2) Fixation to the panel

(action conguration)

Function settings

(1) Press and hold the SHIFT + FUNC keys for 5 seconds or more and start setting. (2) Press the

item, and press the ENT key to start changing the setting value. (3) Press the

another digit, and after changing the value using the

nish the setting value change. (4) After setting all functions, use the SET key to nish setting.

key to select the

key to move to

key, use the ENT key to

p.4

Panel

p.8 p.

16 -17

Connection with the power and sensor

View from the back

(1) Connection with the power (2) Connection with various sensors

p.5 - 6

Connecting wires

Parameter settings p.8 - 15

(1) Press and hold the SHIFT + PAR keys for 5 seconds or more and start setting. (2) Press the

item, and press the ENT key to start changing the setting value. (3) Press the key to move to another digit, and after changing the value using the

● key, use the ENT key to nish the setting value change.

(3) After setting all parameters,

use the SET key to nish setting.

key to select the

(function)

Mode

(1) Press the SHIFT + MOD keys and start setting. (2) Use the

the SET key to nish setting.

settings p.8 - 15

key to set, and use

Start of operation

●2.

Unit Model

Teaching function settings

●Parameter settings are not necessary.

Simple setting

Please check the model number of the equipment purchased.

501X

501F

Power

Symbol Power

A AC power (85 - 264VAC)

D DC power (10.8 - 25.2VDC)

Input type

Symbol Input type

501X Standard input : Supports the sensor input, including rotary encoders, and magnetic sensors

501F(AC Power only) Dierential input Supports the line driver output, including AC servo motors

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Option #2

Option #1

Symbol Output Power Source

FVC

Analog Signal Output

BCS Output

BCD

Symbol Output Function

Analog Signal Output

FVT

CPT Relay Output

TRT Transistor Output Open Collector Output. HH, H, LL, L GO and ZERO output.

Outputs voltage and current that correspond to displayed value

Open Collector, BCD Output Simple interface with the sequencer

Outputs voltage and current that correspond to displayed value

Relay Changeover contact output. H output, L output, and GO output, against the set value

* HH : High set point 2 output

●●●●●H : High set point 1 output

●●●●● L : Low set point 1 output

●●●● LL : Low set point 2 output

Page 3

●3.

Specications

Unit model DT-501X ● DT-501F

Action mode Digital tachometer mode Flowmeter mode Elapsed timecounter mode Time width meter mode

Display

Display 1

0 - 999999

6 digits

Display 2 -

0:00:00 - 9:59:59

(Hour:Minute:Second / base 60 display)

(Hour:Minute:Second / base 10 display)

0:00 - 999:99

0:00:00 - 0:59:59

(Hour:Minute:Second / base 60 display)

With zero suppression function

Decimal point position 0 to 5 digits after the decimal point(000000 ● 0.00000)

Number indicator Red 7 segment LED, Letter height 22mm, 6 digits, - display available

LED lamp 8 (SIG, LL, L, H, HH, MAX, MIN, TEA)

Operation key 5 ●SET/SHIFT ,MEM/TEACH , ● /PARA ,

/FUNC ,ENT/MODE●

●

Input range 0.0067Hz ● 100kHz 10ms - 3600s

Measurement accuracy ±0.008● ±1digit ±0.1● ±1digit

Filter

Note that you can switch between only 10kHz and 0.02kHz in a magnetic sensor, and its contact is only 0.02kHz.

Switches between 100kHz, 30kHz, 10kHz, and 0.02kHz using the parameter.

Display cycle 0.2, 0.5, 1, 2, 5, 10, 15, 30, 60 sec. (changeable in the parameter settings) Dependent on the input signal

Pre-scale function Parameter setting system using the front panel keys. The teaching (combination) of display values are also available.

Memory function

Comparator function

The maximum/minimum measurement values can be memorized and displayed in the indicator.

The settings of the high set point 1, low set point 1, high set point 2, and low set point 2, and judgment results can

be displayed on the LED lamp. The hysteresis setting of the high and low set point 1 values are also available.

(Switches the display using the MEM key)

Auto zero time 0.1 - 150 sec. 0.1 - 3600 sec.

Pre-arithmetic function Updates the displayed value according to the elapsed time after the pulse stops.

Teaching function

Performs scaling automatically by setting the display value with a certain signal input. (only in the tachometer and owmeter modes)

Insulation resistance 10MΩ or more (at DC500V Mega)

Voltage proof AC1500V or more 1min

Operating temperature 0 - 45ºC(No condensation)

Operating humidity 35 - 85%RH (No condensation)

Operating atmosphere No corrosive gas

Conforming standard RoHS

Protection function Front panel: IP66 (or equivalent), Rear terminal block: IP20

Casing material ABS resin

External dimensions ● 96 × ● 48 × ● 92 ● (DIN)

Weight

*There are the input specications in addition to the above specications. For details, refer to p.5 - 6.

●4.

Component Part Names and Functions

FVT● FVC● TRT● BDC options : + approx. 50g

Approx. 200g

CPT options : + approx. 100g

●Front

●●●●●●●●●●●● ● ●●●●●● ●

●

●●●●●●●●●●●●●● ●●

●Rear

●

●Side

№ Name Function

● SIG lamp Lights up when the sensor signal is input

● LL lamp Lights up when the low set point 2 is judged.

● L lamp Lights up when the low set point 1 is judged.

● H lamp Lights up when the high set point 1 is judged.

● HH lamp Lights up when the high set point 2 is judged.

● MAX amp Lights up when the maximum value is displayed

● MIN lamp Lights up when the minimum value is displayed

● TEA lamp Lights up when the teaching function is set

● PEAK lamp Not used

● BTM lamp Not used

● Unit label space Space for attaching the supplied unit labels

● Main display Displays the measurement value

● SET/SHIFT key

● MEM/TEACH key

●

● ●(UP)/PARA key

●●(NEXT)/FUNC key

● ENT/MODE key

Finishes the setting in various setting modes Pressing this key with other keys switches to various setting modes

Switches to the memory display Pressing this key with the SET key goes to the teaching setting mode

Changes the selected items in various setting modes, or numerical values Pressing this key with the SET key switches to the parameter setting mode

Changes the selected digit in various setting modes Pressing this key with the SET key switches to the function setting mode

Selects the changed item(s) in various setting modes Pressing this key with the SET key switches to the mode setting mode

● Terminal block

● Rear panel

● Terminal block cover 21

Mounting adapter

Unit label

ℓ

● PS

● ● kHz rpm

●:●:●

●:●●●

sec min rps Hz h:m:s sec min rps Hz

●

m●●

●● h

●● s

●

min

●

min

h ℓ

min

ℓ

●s

km h

m:s:●

min

mm min

ℓ

●

min

mm sℓ

min

● PS

● ● kHz rpm

●

m h

● h

ℓ min

r min

mm min

FVT CPT TRT FVC TRC

BCD RMT DRT SDT SDC

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Page 4

●5.

External Dimensions

●6.

Installation to the Panel

Mount this unit to the panel according to the following procedures. Check that the mounting panel is thick enough (1.0 - 5mm) before mounting operation.

Attach the provided waterproof gasket to the panel surface.

* If waterproong is not necessary, skip this step.

(1)

Remove the external frame with the cutting lines(backing paper + waterproof gasket) from the gasket sheet.

(Adhesive paste is applied on the both

of the waterproof gasket.)

sides

External frame (backing paper + waterproof gasket)

Backing paper (side with cutting lines)

Backing paper (side without cutting lines)

(2) Attach the provided waterproof gasket to

the edges of the unit attachment panel and opening, aligning with its left and right sides,

and then peel o the backing paper.

At this time, be sure not to displace or wrinkle the waterproof gasket. Also, do not expand the waterproof gasket vertically and/or horizontally past the attachment panel’s edges.

Adhesive part of the waterproof gasket

Unit attachment opening

Backing paper

●mm●

CAUTION

About waterproong

● Front panel: IP66 (or equivalent)

● Rear terminal block: IP20 (non-waterproof ) Do not install the unit in the following places or conditions. (1) Places regularly subject directly to water (2) Places subject to oil splashes and/or medical supplies (3) Places subject to water splashes on the rear or side face(s). * The front panel is IP66 (or equivalent) waterproofed, but if water is splashed on the unit, be sure to wipe it o the unit as soon as possible.

Place the unit horizontally, and insert the gasket into

the opening of the panel surface.

Push the unit until the waterproof gasket (adhesive part) securely reaches the panel surface of the unit.

Waterproof gasket

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Panel

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Attach the mounting adapter to the unit.

Slide the mounting adapter until it lightly touches the panel surface.

Mounting adapter

Page 5

●7.

Wiring to Power Source and Sensors (DT-501XA/DT-501XD)

Note) In order to prevent electric shock, be sure to turn the power OFF. Be sure to use the unit under the rated voltage (AC power specifications: 85 - 264VAC / DC power specifications: 10.8 - 25.2VDC). The inverter output (output to connect a motor) cannot be used as power. Connection wiring from sensors shall not be kept in the same or parallel conduit or cable as the power source, power or high voltage cables. If you fail to separate the wiring, noise may be superimposed on the signal wire, resulting in malfunctions. Use shielded wire for input power connections with the shortest possible metal conduit.

For DT-501XA/DT-501XD

• Terminal block connection diagram

Sensor

Power 1 Power 2 Earth

power output

+12V

Pull-up

Open

collector

Voltage

input

Magnetic

sensor input

1 2 3 4 5 6 7 8 9 10

● Wiring requirements

●●Use M3 crimp-style terminals with a width of 7 mm or less to connect wires to the terminal block.

● After wire connection to the terminal block is completed, be sure to attach the provided terminal block cover.

PWR1 PWR2 E PU

AC power

85 - 264V

DC power

10.8 - 25.2V

* Model AC power specications: DT-501XA DC power specications: DT-501XD

+12V

Shield wire

Earth

oltage output sensor

NPN open collector sensor

(Adjacent switch, gear sensor, rotary encoder)

DC 2-wire sensor

NPN open collector sensor

●adjacent switch●

GND

Magnetic sensor

Relay switch

CAUTION

Be sure to connect the power wires to the 1st and 2nd terminals. Incorrect connection could result in damage and/or burns to the unit.

• Input specications • Connection list with sensors

Item Description

Power

AC (DT-501XA) 85 - 264VAC(50/60Hz)

DC (DT-501XD) 10.8 - 25.2VDC Consumption power 10VA Sensor power output DC+12V Max.100mA

Open collector (NPN) input

Open collector input

LO input

Load capacity 12mA or more

0 - 3V HI input Leakage current 0.5mA or less Maximum frequency

(Minimum pulse width 5micro second●

100kHz For no-voltage contact. Short-circuit ● and ● to use.

Contact input

Contact capacity Voltage 12V, Current 15mA or more Maximum frequency

(Minimum pulse width 25micro second●

20Hz LO input 0 - 1.5V

Voltage input

HI input 4.0 - 30V Input resistance Maximum frequency

10kΩ

30kHz

(Minimum pulse width 17micro second●

Input resistance 10k Ω

1Hz ● 100Hz 0.3 ● 30Vp-p

Magnetic sensor input

Input voltage

● 1kHz 1.5 ● 30Vp-p

● 10kHz 6 ● 30Vp-p

Note) Magnetic sensors cannot be used in the time wide meter mode (mode 3).

Maximum frequency

(Minimum pulse width 50micro second●

10kHz

The table below shows the sensors and connection terminal No. to be applied according to the input signal type.Check using the connection diagram on the left.

Input signal type Sensor

Contact signal Relay switch ● 5-6-9 Open collector Adjacent switch SE-P12-1 4-6-9

Adjacent switch SE-P12

Square wave

Gear sensor SE-G2

Note 1) Connect sensor wires to the specied terminals, and be sure to leave theother terminals empty. More than one sensor cannot be connected simultaneously. Note 2) When one sensor is connected to more than one tachometer, supply the power for the sensor from one of them.

Our product model

Connection terminal

4-7-9Rotary encoder RE-1-●F

• Input circuit

Open collector sensor

Example of external connection

NPN open collector sensor

Example of external connection

Voltage output sensor

Example of external connection Example of external connection Example of external connection

NPN voltage output sensor

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PNP voltage output sensor

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DC 2-wire sensor

PNP open collector sensor

Relay switch

Magnetic sensor

Example of external connection

Relay switch

Magnetic sensor

Page 6

●8.

Wiring to Power Source and Sensors (DT-501FA)

Note) In order to prevent electric shock, be sure to turn the power OFF. Be sure to use the unit under the rated voltage (AC power specifications: 85 - 264VAC). The inverter output (output to connect a motor) cannot be used as power. Connection wiring from sensors shall not be kept in the same or parallel conduit or cable as the power source, power or high voltage cables. If you fail to separate the wiring, noise may be superimposed on the signal wire, resulting in malfunctions. Use shielded wire for input power connections with the shortest possible metal conduit.

For DT-501FA

• Terminal block connection diagram

Sensor

Power 1

Power 2 Ear th

power output

+12V

No connection No connection

Dierential

input +

Dierential

input -

1 2 3 4 5 6 7 8 9 10

No connection

● Wiring requirements

● Use M3 crimp-style terminals with a width of 7 mm or less to connect wires to the terminal block.

● After wire connection to the terminal block is completed, be sure to attach the provided terminal block cover.

PWR1 PWR2 E NC NC

Earth

AC power

85 - 264V

* Model AC power specications: DT-501FA

DIF+

DIF-

Dierential output

GND+12V

• Terminal block connection diagram

Item

Power AC (501FA) 85 - 264VAC(50/60Hz)

Consumption power

Sensor power output

Dierential input

●9.

Basic Setting Procedure

10VA DC+12V Max.100mA

Connection to Dierential line driver AM26LS31 etc.

Dierential input voltage

Maximum frequency

Description

DIF+

DIF

DIF-

Maximum voltage±5.5V(15mA)

DIF

Minimum voltage

(Minimum pulse width 5micro second●

100kHz

±3.0V

Conduct settings as indicated below based on the intended use.

CAUTION

Be sure to connect the power wires to the 1st and 2nd terminals. Incorrect connection could result in damage and/or burns to the unit.

• Line driver input circuit

Example of external connection

Line driver

Parameter settings

Mode (function) settings

Refer to p.8 - 15.

Teaching function settings

Function (action configuration)

settings

Refer to p.16 - 17.

Measurement start

Refer to p.7.

Conduct the comparator function p.17 and memory function settings p.18, if necessary. This unit requires no complicated calculation, and implements the teaching function which enables optional changes of display values and error compensation. (excluding the elapsed timecounter and time wide meter modes)

10.

Keys to be Used for Various Settings and Their Applications

The front panel keys to be used for mode, parameter, and function settings, as well as various settings (teaching function / high and low set point 1 value setting / memory function) are described below.

• Operation during the normal measurement display / memory display

№ Name Function

●

SHIFT key MEM key

● TEACH key Pressing and holding this key with the SHIFT key for 5 seconds switches to the teaching setting mode

●

PARA key

●

FUNC key

●

MODE key

Pressing this key with other keys switches to various setting modes Switches to the memory display

Pressing and holding this key with the SHIFT key for 5 seconds switches to the parameter setting mode Pressing and holding with the SHIFT key for 5 seconds switches to the function setting mode Pressing and holding this key with the SHIFT key for 5 seconds switches to the parameter setting mode

• Operation in the various setting modes

№ Name Function

● ● ● ● ●

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● SET key Setting completion key in various setting modes

●

(UP) key Changes the selected items in various setting modes, or numerical values

●

●(NEXT) key Changes the selected digit in various setting modes

● ENT key Selects the changed item in various setting modes

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Page 7

●11.

Teaching Function Settings

When you can check (measure) the actual revolution speed, the following simple method (teaching function) can be used. The teaching function requires no complicated calculation.

● The teaching function is supported only in mode 1 and mode 4. Mode 2 and mode 3 have no teaching function.

● Setting method

1 0

SHIFT + MEM keys

5 seconds elapsed

Teaching function setting mode

TEA

When you press the SHIFT + MEM keys simultaneously during the normal measurement display, the main display blinks.

●●●●●●●●●●●●●●●●●●●●●●●●(TEA lamp lights up)

The measurement value which was displayed before is displayed in the main display. In the initial status, the digit on the left blinks. Because the value in the blinking digit can be

0 0 0 0 1 0

●

Use the

key

to select the digit

TEA

0 1 0 0 1 0

key to

Use the ●

select the value

TEA

0 1 0 0 1 0

Use the SET key to

nish the setting

Returns to the normal measurement display

changed, use the Every time you press the digit”, and “decimal point”, then back to “1st digit”.

After selecting the digit you want to change, use the

When you select the decimal point, use the

When the numerical value setting is complete, press the SET key to finish the teaching setting. The teaching setting result is reflected, and the display returns to the normal measurement display.

key to select the digit in which you want to change the value.

key, the digit blinks in the order of “1st digit”, “2nd digit”, ... “6th

key to change the value (0 - 9).

key to change the decimal point position.

0 1 0 0 1 0

● Teaching function details

• Mode 1

The teaching function can be used to automatically change the value of parameter items (P2, P3), and calculate the present measurement value from the teaching setting value as below.

External input pulse (Hz) A

Parameter setting value

Display calculation formula

When the input revolution speed is outside the input revolution speed range, “EE-2” is displayed, and the teaching function cannot be used.

During normal display

P1●Pulse count per revolution B P2●Setting revolution speed (detection section) P3●Value to be displayed D

{ (A/B) * 60 } * (D/C)

Input pulse (Hz) in the teaching setting A Teaching function setting value F

Parameter setting value

Display calculation formula

When the teaching function is executed

P1●Pulse count per revolution B P2●Setting revolution speed (detection section) P3●Value to be displayed D = F

{ (A/B) * 60 } * (D/C)

C = A * 60(Hz)/ B

Input revolution speed range : 1rpm ● Input revolution speed* ● 99999rpm

●●●●●●●●●●●●●●●●●●●●●●

* The P2 calculation value is maintained by rounding o fractions after the decimal point.

●

Depending on input and teaching setting values, the teaching setting value for the input at the time might not be displayed.

*Input revolution speed = A × 60(Hz) / B

• Mode 4

The teaching function can be used to automatically change the value of parameter items (P3, P4), and calculate the present measurement value from the teaching setting value as below.

External input pulse (Hz) A

Parameter setting value

Display calculation formula

When the input frequency is outside the input frequency range, “EE-2” is displayed, and the teaching function cannot be used.

Input frequency range●: 1Hz

The P3 scaling value maintains values after decimal point up to 7 digits inside. Note that because the number of digits after decimal point that can be maintained in the parameter setting is up to 5, values in 5 digits or more after decimal point will be rounded o when you enter the value in the parameter setting.

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* If the P3 calculation value exceeds 999999, the P3 value will be forced to be “999999”.

Mode 4 Display value calculation

Number of blades per

revolution P2 Capacity per sensor blade C P3 Scaling D P4 Decimal point display

●A * B● * C * D

Input pulse (Hz) in the teaching setting A Teaching function setting value F

Parameter setting value

Display calculation formula

●●●A●●●

99999Hz

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Mode 4 Display value calculation

Number of blade per

revolution P2 Capacity per sensor blade C P3 Scaling D = F/ (A * B * C ) P4 Decimal point display Decimal point position of E = F

●A * B● * C * D

Page 8

●12.

About Mode

DT-501X/DT-501F have ve modes (functions) which can be selected according to the measurement purpose.

Mode

No.

99 Test Mode Executes the self diagnosis p.19

* The mode 1 (digital tachometer mode) is set in the factory setting.

Mode description Details

1 Digital Tachometer Mode* Digital tachometer / used as speedmeter●Displays the proportional value to the input p.8 - 9 2 Elapsed Timecounter Mode Used as the elapsed time display in a certain period●Displays the inversely proportional value to the input p.10 - 11 3 Time Width Meter Mode Measures time for the period when the signal is ON (or OFF) and displays it p.12 - 13 4 Flowmeter Mode Displays the instantaneous ow amount p.14 - 15

for the setting method

For the lists of parameters and functions to be set in each mode, refer to pages 20 and 21.

Page No.

Setting Method

13.

When You Select Mode 1 (Digital Tachometer Mode) for Measurement

Digital tachometer mode

Set each setting item for mode and parameter according to the following procedures. (For the setting method of functions, refer to pages 16 and 17.)

● Setting example (for measuring the peripheral speed of the roller)

As in the gure on the left, the rotary encoder is connected to the feed roller via coupling in the paper manufacturing process. To display the peripheral speed (m/min.) of the feed roller in DT-501under the following conditions:

[Conditions]

● Servo motor (pulse input)

● Diameter of the feed roller

● Peripheral speed of the roller diameter of 90mm ●

●0.09m×3.14)×500rpm ● 141.3m/min

Circumference

●●●●

of the roller

Revolution speed*

*Suppose that the revolution speed in the detection section is 500rpm because the revolution speed is not instructed.

● Setting method (1) Mode

• When you select mode 1 (digital tachometer mode) for measurement (The digital tachometer mode is set in the factory setting.)

Normal display

The main display shows “0”.

Mode setting

Finish setting

Note) If you change the mode settings, each parameter and function setting value will return to the factory default setting value.

Press and hold the SHIFT + MODE keys for 5 seconds or more. The main display shows the current set mode No. after blinking.

* When you are setting for the rst time after the

purchase of this unit, mode 1(digital tachometer

mode) in the factory default setting is displayed.

Press the SET key. The display goes to mode 1 (digital tachometer mode).

- 0 1 -

The numerical value does not need to be changed and you can proceed to the next step. * Every time you press the

the mode No. switches.

key,

(2) Parameter

•

Parameter setting items in mode 1 (digital tachometer mode) nd numerical values to be set according to the above example

No. Setting item Setting range

Pulse count per revolution

Revolution speed in the

detection section Value to be displayed

(with decimal point)

P4 Display cycle

P5 Auto zero time 0.1 - 150 sec. _ _ 006.0 6.0 sec. 6 sec. Measure using the default setting value as no special instruction is provided.

P6 Input lter 10/30/100/0.02kHz _ 10_ 10kHz 30kHz As the rotary encoder is used as a sensor, select "30".

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* For the description about the parameter functions, refer to page 20.

1 - 9999p/r _ _ 0001 1p/r 600p/r Enter the pulse count of the rotary encoder.

1 - 99999rpm _01000 1000rpm 500rpm Enter some numerical value as the revolution speed is not instructed.

0.00001 - 999999 001000 1000 141.3 Refer to the above "Setting example".

0.2/0.5/1.0/2.0/

5.0/10/15/30/60 sec.

Default setting value

Display Description

_ 1.0 _ 1 sec. 1 sec. Measure using the default setting value as no special instruction is provided.

Numerical value to be set according to the above example

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Page 9

● Mode 1 (digital tachometer mode) Display value calculation equation

Mode 1 Display value calculation

External input pulse (Hz) A

P1 Pulse count per revolution B

Parameter setting

Equation ●(A/B)

P2 P3 Value to be displayed D

Revolution speed in the detection section(rpm)

60)

(D/C)

• Start setting according to the setting example on the previous page.

Parameter setting

Press and hold the SHIFT + PARA keys for 5 seconds or more to switch to the parameter setting mode.

0 1 - P 0 1

Parameter 1 setting

Parameter 2 setting

Parameter 3 setting

Parameter 4 setting

Parameter 5 setting

Parameter 6 setting

Press the ENT key and start setting parameters. (The main display shows t merical value of each parameter.)

Every time you press the key, the display switches to the next pa rameter.

Every time you press the ● key, the display switches to the next parameter.

he current set nu

0 0 0 1

0 1 0 0 0

0 0 1 0 0 0

2. 0-

0 1 0. 0

Use the key to move to another digit

Use the key to change the numerical value to “600”. Use the ENT key to nish setting.

Use the

key to move to another digit

Use the key to change the numerical value

to “500”. Use the ENT key to nish setting.

key to move to another digit

Use the

Use the key to change the numerical value to “141.3”. Use the ENT key to nish setting. (Use the use the key to change its position.)

Every time you press the ● key, the display switches as below.

Select "1.0" and use the ENT key to nish setting.

Use the key to move to another digit Use the key to change the numerical value to “6.0”. Use the ENT key to nish setting. (Use the use the key to change its position.)

Every time you press the key, the display switches as below.

Select "30" and use the ENT key to nish setting.

key to select the decimal point, and

0.2 > 0.5 >1.0 >2.0 >5.0 60●<●30●<●15●<●10

key to select the decimal point, and

●10 > 30 >100 > 0.02

●●●●●●●●●●●●

0 6 0 0

5 0 0

1 4 1. 3

1. 0-

6. 0

3 0

---

Press the SET key.

Finish setting

*If you enter a value outside the setting range, all the input values will blink, which indicates the setting is disabled.

●When this occurs, you cannot switch to other displays until you enter a value within the setting range.

The display goes to mode 1 (digital tachometer mode).

0. 0

(3) Function (For the setting method, refer to pages 16 and 17.)

• Function setting item in mode 1 (digital tachometer mode)

No. Setting item Setting range Input range Default value

F1 High set point 1 value Sets the high set point 1 value 000000 - 999999 0 F2 Low set point 1 value Sets the high set point 1 value 000000 - 999999 0 F3 High set point 2 value Sets the high set point 2 value 000000 - 999999 0 F4 Low set point 2 value Sets the low set point 2 value 000000 - 999999 0

Hysteresis of the high and

low set point 1 values

Judgment output timer at

startup

F7 Minimum revolution speed Sets the revolution speed to be displayed as zero 000000 - 999999 0

Frequency of the moving

average

F9 Pre-arithmetic function

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* For the description of functions, refer to pages 21 and 22.

Sets the hysteresis of the high and low set point 1 values

Sets the time when the comparator judgment is output at startup

Used when variation of the revolution speed is large and a stable display cannot be attained

Promptly performs the deceleration display when the signal is lost

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0 - 99 0

0 - 99 sec. 0 sec.

0(disabled)/1(3 times)/2(10 times) 0(disabled)

0(disabled)/1(enabled) 0(disabled)

Page 10

Setting Method

14.

When You Select Mode 2 (Elapsed Timecounter Mode) for Measurement

Set each setting item for mode and parameter according to the following procedures. (For the setting method of functions, refer to pages 16 and 17.)

● Setting example (for the elapsed time display of oven)

As in the gure on the left, bread passes through the oven in a bread factory. The rotary encoder is attached to the motor of the conveyor belt. To display the time at which the bread passes through the oven in DT-501, do so under the following conditions:

[Conditions]

● Revolution speed of the rotary encoder

1200rpm(

rotary encoder

● Speed of the conveyor belt

● Length of the oven

● Passing time through the oven

5m÷2.8m/min ● 1.786 minutes ●Approx. 1 minute 47 seconds

• Setting method (1) Mode

• Set the mode 2 (elapsed timecounter mode).

Elapsed timecounter mode

●

60p/r●

● 2.8m/min

● 5m

●

Normal display

Mode setting

Finish setting

Note) If you change the mode settings, each parameter, function, and high and low set point 1 setting value will return to the factory default setting value.

The main display shows “0”.

Press and hold the SHIFT + MODE keys for 5 seconds or more. The main display shows the current set mode No. after blinking.

* When you are setting for the rst time after the

purchase of this unit, mode 1(digital tachometer

mode) in the factory default setting is displayed.

Press the SET key. The display goes to mode 2 (elapsed timecounter mode

0 1

0: 0 0

Every time you press the key, the display switches to the next mode No.

1●2●3●4

Select "2".

0 2

(2) Parameter

• Parameter setting items in mode 2 (elapsed timecounter mode) and numerical values to be set according to the above example.

No. Setting item Setting range

P1 Pulse count per revolution 1 - 9999p/r _ _ 0001 1p/r 60p/r Enter the pulse count of the rotary encoder.

Revolution speed in the detection

section

Value to be

displayed

P4 Display cycle

P5 Auto zero time 0.1 - 150 sec. _ _ 006.0 6.0 sec. 6 sec.

P6 Input lter 10/30/100/0.02kHz _ 10_ 10kHz 30kHz As the rotary encoder is used as a sensor, select "30".

* For the description about the parameter functions, refer to page 20.

Hour:Minute: display system Second display system

Second

1000 - 99999rpm _01000 1000rpm 1200rpm Enter the revolution speed of the rotary encoder.

0:00:01 - 9:59:59

0:01 - 999:99

0.2/0.5/1.0/2.0/

5.0/10/15/30/60 sec.

Default setting value

Display Description

_010:00 10:00 sec.

_ 1.0 _ 1 sec. 1 sec.

Hour:Minute:Second display system 0:01:47

Numerical value to be set according to the above example

Refer to the above "Setting example".

Measure using the default setting value as no special instruction is provided. Measure using the default setting value as no special instruction is provided.

● Mode 2 (elapsed timecounter mode) Display value calculation equation

Mode 2 Display value calculation

External input pulse (Hz) A

P1 Pulse count per revolution B

Parameter setting

Equation ●1/(((A/B)

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Revolution speed in the detection section(rpm)

P3 Value to be displayed D

60)/C))

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Page 11

●Start setting according to the setting example on the previous page.

Normal display

To the parameter settings

Parameter 1 setting

Parameter 2 setting

Parameter 3 setting

Parameter 4 setting

Parameter 5 setting

The main display shows “0:00”.

Press and hold the SHIFT + PARA keys for 5 seconds or more to switch to the param eter setting mode.

Press the ENT key and start setting parameters. (The main display shows the current set numerical value of each parameter.) Every time you press the ● key, the display switches to the next parameter.

0: 0 0

0 2 - P 0 1

0 0 0 1

0 1 0 0 0

0 1 0: 0 0

2. 0-

0 1 0. 0

Use the

key to move to another digit

Use the key to change the numerical value to “60”. Use the ENT key to nish setting.

Use the key to move to another digit

Use the key to change the numerical value

to “1200”. Use the ENT key to nish setting.

Use the key to move to another digit

Use the key to change the numerical value to “0:01:47”. Use the ENT key to nish setting. To switch the Hour:Minute:Second display (0:10:00) and Second display (10:00), use the

key with ":" selected by the key.

Every time you press the ● key, the display switches as below.

0.2 ● 0.5 ● 1.0 ● 2.0 ● 5.0

Select "1.0" and use the ENT key to nish setting.

Use the key to move to another digit Use the key to change the numerical value to “6.0”. Use the ENT key to nish setting. (Use the key to select the decimal point, and use the key to change its position.)

60●●●30●●●15●●●10

0 0 6 0

1 2 0 0

0: 0 1: 4 7

1. 0-

6. 0

Every time you press the ● key, the

Parameter 6 setting

Finish setting

*If you enter a value outside the setting range, all the input values will blink, which indicates the setting is disabled.

●When this occurs, you cannot switch to other displays until you enter a value within the setting range.

Press the SET key. The display goes to mode 2 (elapsed timecounter mode).

1 0

- -

0: 0 0: 0 0

display switches as below.

Select "30" and use the ENT key to nish setting.

10 ● 30 ● 100 ● 0.02

3 0

(3) Function (For the setting method, refer to pages 16 and 17.)

• Function setting item in mode 2 (elapsed timecounter mode)

No. Setting item Description Input range Default setting

F1 High set point 1 value

F2 Low set point 1 value

F3 High set point 2 value

F4 Low set point 2 value

Hysteresis of the high

and low set point 1 values Judgment output timer

at startup Minimum revolution

speed

Frequency of the moving

average

F9 Pre-arithmetic function Promptly performs the deceleration display when the signal is lost 0(disabled)/1(enabled) 0(disabled)

* For the description of functions, refer to page 21.

Note) When the input signal stops in the elapsed timecounter mode, the display will overow after the specied time set with the auto zero function.

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The overow display “-.-.-.-.-.-.” does not mean there is a malfunction. When the input signal is within the display range, the display returns to normal.

Sets the high set point 1 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59 Second display system

Sets the low set point 1 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59 Second display

Sets the high set point 2 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59 Second display

Sets the low set point 2 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59 Second display

Sets the hysteresis of the high and low set point 1 values 0 - 99 0

Sets the time when the comparator judgment is output at startup 0 - 99 sec. 0 sec.

Sets the revolution speed to be displayed as zero 000000 - 999999 0

Used when variation of the revolution speed is large and a stable display cannot be attained

0(disabled)/1(3 times)/2(10 times) 0(disabled)

0:00Sets the high set point 1 value (Second display system) 0:00 - 999:99

0:00Sets the low set point 1 value (Second display system) 0:00 - 999:99

0:00Sets the high set point 2 value (Second display system) 0:00 - 999:99

0:00Sets the low set point 2 value (Second display system) 0:00 - 999:99

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Page 12

Setting Method

15.

When You Select Mode 3 (Time Width Meter Mode) for Measurement

Set each setting item for mode and parameter according to the following procedures. (For the setting method of functions, refer to pages 16 and 17.)

● Setting example (for the operating time display of the press machine)

As in the figure on the left, when the press machine finishes operation and returns to the upper edge, the adjacent switch is activated. To display the operating time of the press machine (when the proximity switch is turned o)

● Setting method (1) Mode

• Set mode 3 (Time Width Meter Mode).

Time wide meter mode

Normal display

Mode setting

Finish setting

Note) If you change the mode settings, each parameter, function, and high and low set point 1 setting value will return to the factory default setting value.

The main display shows “0”.

Press and hold the SHIFT + MODE keys for 5 seconds or more. The main display shows the current set mode No. after blinking.

* When you are setting for the rst time after the purchase of this unit, mode 1 (digital tachometer mode) in the factory default setting is displayed.

Press the SET key. The display goes to mode 3 (time wide meter mode).

0 1-

0: 0 0

Every time you press the key, the display switches to the next mode No.

1●2●3●4

Select "3".

0 3-

(2) Parameter

• Parameter setting items in mode 3 (Time Width Meter Mode) and numerical values to be set according to the above example.

No. Setting item Setting range

Switch between Hour:Minute:

Second and 1/100 Second system

P2 Measurement section 0(OFF)/1(ON) _ 1_ ON 0 Select "0" because the adjacent switch of the open collector is OFF. P3 Auto zero time 0.1 - 3600 sec. _3600.0 3600 sec. 60.0 sec. Set "60.0" because there is no time setting longer than 1 minute. P4 Input lter 10/0.02kHz _ 10_ 10kHz 10kHz

* For the description about the parameter functions, refer to page 20.

0:00:00/0:00 0:00 1/100 sec. 0:00

Default setting value

Display Description

Numerical value to be set according to the above example

Select the 1/100 second display based on the operating time of the press machine.

Measure using the default setting value as no special instruction is provided.

● About the measurement section (parameter 2)

Relay switch, open collector, DC 2-wire sensor ON (When the No.6 terminal is at L level)

Voltage pulse ON (When the No.7 terminal is at H level)

1 0

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Page 13

• Start setting according to the setting example on the previous page.

Normal display

The main display shows “0:00”.

0: 0 0

To the parameter settings

Parameter 1 setting

Parameter 2 setting

Parameter 3 setting

Parameter 4 setting

Finish setting

Press and hold the SHIFT + PARA keys for 5 seconds or more to switch to the param eter setting mode.

Press the ENT key and start setting parameters. (The main display shows the current set numerical value of each parameter.) Every time you press the key, the display switches to the next parameter.

Press the SET key. The display goes to mode 3 (time wide meter mode).

0 3 - P 0 1

0: 0 0 0: 0 0

3 6 0 0. 0

1 0

0: 0 0

The numerical value does not need to be changed and you can proceed to the next step by pressing the ENT key. (Use the key to change the numerical

value.)

Every time you press the

- -

switches as below.

Select "0" and use the ENT key to finish setting.

Use the Use the key to change the numerical value to “60.0”. Use the ENT key to nish setting.

The numerical value does not need to be changed and you can proceed to the next step by pressing the ENT key. (Use the key to change the numerical value.)

0●1

key to move to another digit

key, the display

0 0 6 0. 0

1 0-

*If you enter a value outside the setting range, all the input values will blink, which indicates the setting is disabled.

●When this occurs, you cannot switch to other displays until you enter a value within the setting range.

(3) Function (For the setting method, refer to pages 16 and 17.) Function setting item in mode 3 (Time Width Meter Mode)

No. Setting item Description Input range Default setting

F1 High set point 1 value

F2 Low set point 1 value

F3 High set point 2 value

F4 Low set point 2 value

Hysteresis of the high and

low set point 1 values Judgment output timer at

startup

* For the description of functions, refer to pages 21 and 22.

Sets the high set point 1 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59

Sets the high set point 1 value (Second display system) 0:00 - 999:99

Sets the low set point 1 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59

Sets the low set point 1 value (Second display system) 0:00 - 999:99

Sets the high set point 2 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59

Sets the high set point 2 value (Second display system) 0:00 - 999:99

Sets the low set point 2 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59

Sets the low set point 2 value (Second display system) 0:00 - 999:99

Sets the hysteresis of the high and low set point 1 values 0 - 99 0

Sets the time when the comparator judgment is output at startup 0 - 99 sec. 0 sec.

Second display system

0:00

Second display system

0:00

Second display system

0:00

Second display system

0:00

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Page 14

Setting Method

16.

When You Select Mode 4 (Flowmeter Mode) for Measurement

Set each setting item for mode and parameter according to the following procedures. (For the setting method of functions, refer to pages 16 and 17.)

● Setting example (For the ow display from the tank)

To display the ow (ℓ/min) in DT-501 under the following conditions when the owmeter for which the number of blades is unknown as in the gure on the left:

[Conditions]

● Number of blades : Unknown

● Output of the ow sensor : 2.5cc/p

Flowmeter mode

*p : Pulse

DT-501●

Flow sensor

● Setting method (1) Mode

• Set mode 4 (owmeter mode).

Normal display

Mode setting

Finish setting

Note) If you change the mode settings, each parameter, function, and high and low set point 1 setting value will return to the factory default setting value.

The main display shows "0".

Press and hold the SHIFT + MODE keys for 5 seconds or more. The main display shows the current set mode No. after blinking.

* When you are setting for the rst time after the purchase of this unit, mode 1 (digital tachometer mode) in the factory default setting is displayed.

Press the SET key. The display goes to mode 4 (owmeter mode).

0 1-

0. 0

Every time you press the key, the display switches to the next mode No.

1●2●3●4

Select "4".

0 4-

(2) Parameter

• Parameter setting items in mode 4 (owmeter mode) and numerical values to be set according to the above example.

No. Setting item Setting range

P1 Number of blades per revolution 1 - 99 _ _ _ _01 1 1 P2

Capacity per sensor blade (cc, ℓ , etc.)

P3 Scaling 0.00000 - 999999 00001.0 1 0.06 Refer to "About scaling" below.

P4 Decimal point display 0.00000 - 00000.0 00000.0

P5 Display cycle

P6 Auto zero time 0.1 - 150 sec. _ _006.0 6 sec. 6 sec. P7 Input lter 10/30/100/0.02kHz _ 10_ 10kHz 10kHz

* For the description about the parameter functions, refer to page 20.

0.0001 - 99999 _ 0001.0 1.0 2.5cc/p Enter the capacity per blade that the sensor can read.

0.2/0.5/1.0/2.0/

5.0/10/15/30/60 sec.

Default setting value

Display Description

Displays to one

decimal place

_1.0_ 1 sec. 1 sec.

00000.0

Numerical value to be set according to the above example

Enter the number of blades of the owmeter. If it is unknown, enter "1".

Displays to one decimal place.

Measure using the default setting value as no special instruction is provided.

Measure using the default setting value as no special instruction is provided. Measure using the default setting value as no special instruction is provided.

● Mode 4 (owmeter mode) Display value calculation equation

External input pulse (Hz) A

Parameter setting

Equation (A

Mode 4 Display value calculation

P1 Number of blades per revolution B P2 Capacity per sensor blade C P3 Scaling D P4 Decimal point display E

* B) * C *

● About scaling (parameter 3)

Assuming the ow per second to be represented in the parameter 2 ow unit (cc in the example) is a (cc/s), parameter 3 will be coecient value when a multiplier is used to change the unit of

(1) To display the value as in the original unit (cc/s)

● ● Parameter 3

(2) To display the value in the unit (ℓ /min) as in the above setting

●

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Parameter 3

(cc/s)

1●a (cc/s)

(cc/s)

60 ÷ 1000 ●A ( ℓ /min)

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(cc/s) for display.

60 : Multiply it by 60 as it is the ow per minute.

* ÷1000 : Divide the value by 1000 as parameter is set in the unit of “cc”.

Page 15

• Start setting according to the setting example on the previous page.

Normal display

To the parameter settings

Parameter 1 setting

Parameter 2 setting

Parameter 3 setting

Parameter 4 setting

The main display shows “0:00”.

Press and hold the SHIFT + PARA keys for 5 seconds or more to switch to the param eter setting mode.

Press the ENT key and start setting parameters. (The main display shows the current set numerical value of each parameter.) Every time you press the ● key, the display switches to the next parameter.

0. 0

0 4 - P 0 1

-- --

0 0 0 1. 0

0 1

0 0 0 0 1. 0

0 0 0 0 0. 0 0 0 0 0 0. 0

The numerical value does not need to be changed and you can proceed to the next step by pressing the ENT key. (Use the key to change the numerical

value.)

Use the key to move to another digit Use the key to change the numerical value

to “2.5”. Use the ENT key to nish setting.

Use the Use the key to change the numerical value to “0.06”. Use the ENT key to nish setting. Use the and use the key to change its position.

The numerical value does not need to be changed and you can proceed to the next step by pressing the ENT key. (Use the key to change the numerical value.)

key to move to another digit

key to select the decimal point,

-- --

0 0 0 2. 5

0 0 0 0. 0 6

0 1

Parameter 5 setting

Parameter 6 setting

Parameter 7 setting

Finish setting

*If you enter a value outside the setting range, all the input values will blink, which indicates the setting is disabled.

●When this occurs, you cannot switch to other displays until you enter a value within the setting range.

Press the SET key. The display goes to mode 4 (owmeter mode).

1. 0-

0 0 6. 0

1 0

- -

0. 0

The numerical value does not need to be changed and you can proceed to the next step by pressing the ENT key. (Use the key to change the numerical

value.)

The numerical value does not need to be changed, and go to next step.

(Use the (Use the key to change the numerical value.)

The numerical value does not need to be changed and you can proceed to the next step by pressing the ENT key. (Use the key to change the numerical value.)

key to move to another digit)

1. 0

0 0 6. 0

1 0

(3) Function (For the setting method, refer to pages 16 and 17.)

• Function setting item in mode 4 (owmeter mode)

No. Setting item Description Input range Default setting

Hysteresis of the high and

low set point 1 values

Judgment output timer at

startup

Minimum ow(display value)

Frequency of the moving

average

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F9 Pre-arithmetic function Promptly performs the deceleration display when the signal is lost 0(disabled)/1(enabled) 0(disabled)

* For the description of functions, refer to page 21.

Sets the hysteresis of the high and low set point 1 values 0 - 99 0

Sets the time when the comparator judgment is output at startup 0 - 99 sec. 0 sec.

Sets the revolution speed to be displayed as zero 000000 - 999999 0 Used when variation of the revolution speed is large and a stable display cannot be attained

0(disabled)/1(3 times)/2(10 times) 0(disabled)

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Page 16

17.

Setting Method of Functions (Excluding in the Test Mode, Common in Each Mode)

The setting method of the functions is common in each mode excluding the test mode. For the lists of functions in each mode, refer to page 21.

• Function setting item <in mode 1 (digital tachometer mode)>

No. Setting item Setting range

F1 High set point 1 value* 000000 - 999999 000000 0 Sets the high set point 1 value. The decimal point is not displayed.

Low set point 1 value*

F3 High set point 2 value* 000000 - 999999 000000 0 Sets the high set point 2 value. The decimal point is not displayed. F4 Low set point 2 value* 000000 - 999999 000000 0 Sets the low set point 2 value. The decimal point is not displayed.

Hysteresis of the high

and low set point 1 values

Judgment output timer

at startup

F7 Minimum revolution speed 000000 - 999999 000000 0 Sets the revolution speed to be displayed as zero

Frequency of the moving

average

F9 Pre-arithmetic function 0(disabled)/1(enabled) _ 0 _ 0(disabled) Promptly performs the deceleration display when the signal is lost

*For the settings of the high set point 1 and 2 values, as well as the low set point 1 and 2 values, refer to “Comparator Function” on page 17.

000000 - 999999 000000 0 Sets the low set point 1 value. The decimal point is not displayed.

0 - 99 _ _ _ _ 00 0

0 - 99 sec. _ _ _ _ 00 0 sec. Sets the time when the comparator judgment is output at startup

0(disabled)/1(3 times)/2(10 times)

Default setting

Display

_ 0 _ 0(disabled)

Description

Function description

Sets the hysteresis of the high and low set point 1 values. Used when the revolution variation is large. (For details, refer to "Comparator Function" on page 17.)

Used when variation of the revolution speed is large and a stable display cannot be attained

• Setting method <in mode 1 (digital tachometer mode)> For the setting methods in other modes than mode 1 (digital tachometer mode), also refer to the description below.

Normal display

To the function settings

Function 1 setting

● Setting example : 1000

The main display shows “0”.

Press the SHIFT + FUNC keys for 5 seconds or more to switch to the parameter set ting mode.

Press the ENT key and start setting functions. Every time you press the key, the display switches to the next parameter.

0 1 - F 0 1

0 1 - F 0 1 0 0 1 0 0 0

Use the key to move to another digit

Use the key to change the numerical value to “1000”. Use the ENT key to nish setting.

Use the

Function 2 setting

● Setting example : 500

Function 3 setting

● Setting example : 1200

Function 4 setting

● Setting example : 300

Function 5 setting

● Setting example : 20

Function 6 setting

● Setting example : 3

Function 7 setting

● Setting example : 100

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Continued on next page

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0 0 0 0 0 0

-- --

0 0

0 0 0 0 0 0

Use the key to change the numerical value to “500”. Use the ENT key to nish setting.

Use the key to move to another digit Use the key to change the numerical value to “1200”. Use the ENT key to nish setting.

Use the key to move to another digit Use the key to change the numerical value to “300”. Use the ENT key to nish setting.

Use the Use the key to change the numerical value to “20”. Use the ENT key to nish setting.

Use the Use the key to change the numerical value to “03”. Use the ENT key to nish setting.

Use the Use the key to change the numerical value to “100”. Use the ENT key to nish setting.

key to move to another digit

0 0 0 5 0 0

0 0 1 2 0 0

0 0 0 3 0 0

-- --

2 0

0 3

0 0 0 1 0 0

Page 17

Continued from previous page

Function 8 setting

● Setting example : 1

Every time you press the display switches to the next func tion. Press the ENT key and start setting functions.

Function 9 setting

● Setting example :1

Finish setting

* If you enter a value outside the setting range, all the input values will blink, which indicates the setting is disabled. When you press any of the numerical input key, the numerical value before entry is displayed, and you can redo the setting. * When the relationship among the setting values of F1 to F4 is not appropriate, "EE-4" is displayed before nishing the function setting by pressing the SET key. For details, refer to page 19.

●18.

Comparator Function

Press the SET key. The display goes to mode 1 (digital tachometer mode).

key, the

Every time you press the key, the display switches as below. Use the ENT key to nish setting.

• Keys to be used for the high and low set point 1 value settings and their applications

● ● ● ●

Judgment lamp

The corresponding lamp lights up according to the judgment result.

Name Function

● LL lamp Lights up when the low set point 2 is judged.

● L lamp Lights up when the low set point 1 is judged.

● H lamp Lights up when the high set point 1 is judged.

● HH lamp Lights up when the high set point 2 is judged.

• Description

● Judgment conditions

Low set point 1 value ● Measurement value ● High set point 1 value AND Low set point 2 value ● Measurement value ● High set point 2 value When either the high and low set point 1 value judgment or the high and low set point 2 value judgment is invalid, and the other is within the setting range Measurement value ● High set point 2 value HH judgment Measurement value ● High set point 1 value H judgment Measurement value ● Low set point 2 value LL judgment Measurement value ● Low set point 1 value L judgment

GO judgment

● Set the high set point 1, low set point 1, high set point 2, and low set point 2 values using the function items F01 to F04.

● Execute the judgment in the all measurement mode.

● The high and low set point 2 value judgment, as well as the high and low set point 1 value judgment, is executed independently.

● When both the high set point 2 and low set point 2 values are “0”, the high and low set point 2 value judgment is not executed.

● When both the high set point 1 and low set point 1 values are “0”, the high and low set point 1 value judgment is not executed.

● When both the high set point 2 and low set point 2 values, as well as the high set point 1 and low set point 1 values are “0”, no judgment is executed.

• About hysteresis

When hysteresis is set in function F5, provide hysteresis between the judgment ON and OFF. The hysteresis setting value is common to the high set point 1, low set point 1, high set point 2, and low set point 2 value judgment.

Output

出出

Judgment ON

出出 ON

Hysteresis

出出出出出出

● Conditions under the high set point 1 and 2 value judgment

Judgment OFF > ON Measurement value ● Judgment value Judgment ON > OFF Measurement value ● Judgment value - Hysteresis value

● Conditions under the low set point 1 and 2 value judgment

Judgment OFF > ON Measurement value ● Judgment value

Judgment OFF

出出 OFF

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OFF 出出出 ON 出出出

OFF display value ON display value

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Judgment ON > OFF Measurement value ● Judgment value + Hysteresis value

Page 18

●19.

Memory Function

• Key to be used for the memory function and display

Switches the normal display, the maximum value display, and mini mum value display. Press and hold this key for 5 seconds or more to clear the memory.

MAX and MIN lamps

MEM key

When the current displayed value is the maximum or minimum, the MAX or MIN lamp lights up, respectively.

• During measurement, the maximum display value (MAX value) and minimum display value (MIN value) per display update cycle is always maintained.

• Pressing the MEM key allows you to check the maximum and minimum values maintained during the measurement.

Normal measurement display

Maximum value display

MAX

1 0 0

MIN

1 0

Press the MEM key once during the normal measurement to display the maximum value.

●●●●●●●●●●●●●●●●

Press the MEM key once when the maximum value is displayed to display the minimum value.

●●●●●●●●●●●●●●●●●

(MAX lamp lights up)

(MIN lamp lights up)

Press the MEM key once when the minimum value is displayed to return to the normal measurement display.

Normal measurement display

1 0

• Press and hold the MEM key for 5 seconds during the normal measurement and memory display ● Clears the maintained MAX and MIN values.

1 0

Press and hold the MEM key for 5 seconds during the normal measurement or when the maximum/minimum value is displayed, the MAX and MIN lamps blink for 2 seconds.

MAX MIN

●●●●●●●●●●●●●●●●●

(MIN lamp lights up)

After the MAX and MIN lamps blink for 2 seconds, the memory is cleared and the display returns to the normal measurement display.

Normal measurement display

1 0

• As in the gure below, the maintained values are cleared when the measurement is reset (when the mode and setting value are changed, and the power is turned ON).

Measurement reset (clears the maintained values)

電電電電電電電電電電電電電電

MAX value

Power ON

電電 ON

MAX 電

Display value

電電電

MAX value

MAX 電

電電電

Display value

MIN 電

MIN value

MIN 電

MIN value

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Page 19

20.

Test Mode (Function to Check if the Unit is Operating Normally)

Normal display

Mode display

Test mode

LED display test

Version display

Press and hold the SHIFT + MODE keys for 5 seconds or more.

- 0 1 -

Press the key to change the mode number to “99”.

- 9 9 -

Press the SET key to display the LED display test.

0 0 0 0 0 0

BTM

8 8 8 8 8 8

9 9 9 9 9 9

Press the ENT key to display the software version.

1. 0 0

Displays the measurement value.

Displays the current set mode number.

The LED on the main display lights up. ”000000 > 999999” is repeatedly displayed. Also, the decimal point and display lamp light up sequentially.

8. 8 :. 8. 8 :. 8. 8.

Press the ENT key to return to the LED display test.

MAX MIN TEA PEAK BTM

<<●●

Press the MEN key to display all LED digits.

Press the MEN key to return to the LED display test.

Press the MEN key to display the key test display.

Key test

21.

Error Display

0 0 0

1 0 0

0 1 0

0 0 1

Press the MEN key to display “1” in the 2nd digit place from the left, and release it to display “0”.

Press the key to display “1” in the 3rd digit place from the left, and release it to display “0”.

Press the

key to display “1” in the 4th digit

place from the left, and release it to display “0”.

Press the ENT key to return to the LED display test.

Press the SET key to return to the normal display.

Displays the measurement value.

When an error occurs during operation, the following error codes are displayed. Take appropriate countermeasures based on the displayed code.

Display

-. -. -. -. -. -.

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E E - 1

E E - 2

E E - 3

E E - 4

Mode 1, 4: Displayed when the display is overowed (the display value exceeds the available number of display digits). Mode 2, 3: Displayed when the auto zero function is executed, or the input is less than the minimum revolution speed.

Displayed when the input pulse width is 10ms or less in mode 3 (time wide meter mode).

Displayed when the value is outside the teaching function range (when the input revolution speed is 99,999 or more). *For details, refer to page 7 (detailed teaching function).

Displayed when an internal memory error occurs. Press the ENT (MODE) key to release the error.

Displayed when the setting value F01 is less than F02, or F03 is less than F04 in the function setting mode.

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Description Countermeasure

When the input signal becomes within the measurement range (available number of display digits), the measurement value is displayed.

Change the input pulse width to within the measurement range.

Decrease the input revolution speed and execute the teaching function.

Note that the setting values of modes, parameters, and functions are initialized.

After the error code is displayed for 2 seconds, the display returns to the previous status before EE-4 is displayed. Change the settings.

Page 20

22.

Parameter List

The following parameters can be set in each mode.

Parameters in mode 1 (Digital Tachometer Mode)

No. Setting item Description Input range Default value

P1 Pulse count per revolution Enter the pulse count per revolution for the rotary encoder, etc. 1 - 9999 P/r 1P/r

Setting revolution speed

(detection section) Value to be displayed

(with decimal point)

P4 Display cycle Sets the display update cycle 0.2/0.5/1.0/2.0/5.0/10/15/30/60 sec. 1.0

P5 Auto zero time

P6 Input lter

Revolution speed in the detection section 1 - 99999rpm 1000rpm

Actual value to be displayed on the panel in the above revolution speed

Sets the time from when the input pulse is gone to when the display becomes "0". Selects a minimum frequency that is larger than the maximum frequency of the input signal. 0.02kHz for the contact input

0.00001 - 999999rpm 1000rpm

0.1 - 150 sec. 6.0 sec.

10/30/100/0.02kHz 10kHz●

Parameters in mode 2 (Elapsed Timecounter Mode)

No. Setting item Description Input range Default value

P1 Pulse count per revolution Enter the pulse count per revolution for the rotary encoder, etc. 1 - 9999 P/r 1P/r

Setting revolution speed

(detection section) Value to be displayed

(Hour:Minute:Second display system)

Value to be displayed (second display system)

P4 Display cycle Sets the display update cycle 0.2/0.5/1.0/2.0/5.0/10/15/30/60 sec. 1 sec.

P5 Auto zero time

P6 Input lter

Revolution speed in the detection section 1 - 99999rpm 1000rpm

Actual value to be displayed on the panel in the above revolution speed

0:00:01 - 9:59:59

0:01 - 999:99

0.1 - 150 sec. 6 sec.

10/30/100/0.02kHz 10kHz●

Parameters in mode 3 (Time width meter Mode)

No. Setting item Description Input range Default value

Hour/minute/second and 1/100

second display systems

P2 Measurement section

P3 Auto zero time

P4 Input lter

Selects the time display method.

Selects the measurement time, i.e. during input signal ON or OFF. Sets the time from when the input pulse is gone to when the display becomes "0". Selects a minimum frequency that is larger than the maximum frequency of the input signal.

(hour:minute:second display system)

0:00:00 /

0:00(1/100 second display system)

0(when OFF)/1(when ON) 1 ●ON●

0.1 - 3600 sec. 3600 sec.

10/0.02kHz 10kHz●

Parameters in mode 4 (Flowmeter Mode)

No. Setting item Description Input range Default value

Number of blades per

revolution Capacity per sensor blade

(cc, ℓ, etc.) P3 Scaling Unit coecient value 0.00000 - 999999 1 P4 Decimal point display Designates the decimal point position 0.00000 - 00000.0 00000.0 P5 Display cycle Sets the display update cycle 0.2/0.5/1.0/2.0/5.0/10/15/30/60 sec. 1 sec.

P6 Auto zero time

P7 Input lter

Sets the number of blades per revolution 1 - 99●(1 when the number is unknown) 1

Enter the capacity per blade that the sensor can read. 0.0001 - 99999 1.0

Sets the time from when the input pulse is gone to when the display becomes "0". Selects a minimum frequency that is larger than the maximum frequency of the input signal.

0.02kHz for the contact input

0.1 - 150 sec. 6 sec.

10/30/100/0.02kHz 10kHz●

10:00

(second display

system)

1/100

second display

system

*1 About the auto zero time

When the input pulse becomes 0Hz during the measurement, and the auto zero time is elapsed, the display is reset to zero.

Display value

表表表表表表表

Auto zero time

表表表

Input pulse

表表表表表

*In mode 2 and mode 3, the zero reset display is “-.-.:-.-.:-.-.”.

Input pulse 0

表表表表表 0

表表表表表表

Zero reset

*When a smaller value than the input pulse cycle is set as the auto zero time, the auto zero function is activated for every pulse, which disables the normal measurement.

*2 Input lter

Set the input lter with the larger value than the input signal frequency.

Example) When the 15kHz signal is input, set the 30kHz lter.

Note) When the duty of the input signal (proportion of the ON time in one cycle) is low, the signal may be attenuated and the pulse may not be received

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normally even if you set the lter with a larger value than the input frequency. When this occurs, set the lter with an even larger value.

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Page 21

23.

判判判判判判判

Function List

The following functions can be set in each mode.

Function in mode 1 (Digital Tachometer Mode)

No. Setting item Description Input range Default value

F1 High set point 1 value F2 Low set point 1 value F3 High set point 2 value F4 Low set point 2 value

Hysteresis of the high and

low set point 1 values Judgment output timer

at startup

F7 Minimum revolution speed Sets the revolution speed to be displayed as zero 000000 - 999999 0

Frequency of the moving

average

F9 Pre-arithmetic function Promptly performs the deceleration display when the signal is lost 0(disabled)/1(enabled) 0(disabled)

Sets the high set point 1 value 000000 - 999999 0 Sets the low set point 1 value 000000 - 999999 0 Sets the high set point 2 value 000000 - 999999 0 Sets the low set point 2 value 000000 - 999999 0

Sets the hysteresis of the high and low set point 1 values 0 - 99 0

Sets the time when the comparator judgment is output at startup 0 - 99 sec. 0 sec.

Used when variation of the revolution speed is large and a stable display cannot be attained

0(disabled)/1(3 times)/2(10 times)

Function setting item in mode 2 (Elapsed Timecounter Mode)

No. Setting item Description Input range Default value

F1 High set point 1 value

F2 Low set point 1 value

F3 High set point 2 value

F4 Low set point 2 value

Hysteresis of the high and

low set point 1 values Judgment output timer

at startup

Sets the high set point 1 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59 Sets the high set point 1 value (Second display system) 0:00 - 999:99 Sets the low set point 1 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59 Sets the low set point 1 value (Second display system) 0:00 - 999:99 Sets the high set point 2 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59 Sets the high set point 2 value (Second display system) 0:00 - 999:99 Sets the low set point 2 value (Hour:Minute:Second display system) 0:00:00 - 9:59:59 Sets the low set point 2 value (Second display system) 0:00 - 999:99

Sets the hysteresis of the high and low set point 1 values 0 - 99

Sets the time when the comparator judgment is output at startup 0 - 99 sec.

F7 Minimum revolution speed Sets the revolution speed to be displayed as zero 000000 - 999999

Frequency of the moving

average

Used when variation of the revolution speed is large and a stable display cannot be attained

0(disabled)/1(3 times)/2(10 times)

F9 Pre-arithmetic function Promptly performs the deceleration display when the signal is lost 0(disabled)/1(enabled)

Second display system

Function setting item in mode 3 (Time width meter Mode)

No. Setting item Description Input range Default value

F1 High set point 1 value

F2 Low set point 1 value

F3 High set point 2 value

F4 Low set point 2 value

Hysteresis of the high and

low set point 1 values Judgment output timer

at startup

Sets the hysteresis of the high and low set point 1 values 0 - 99 0

Sets the time when the comparator judgment is output at startup 0 - 99 sec. 0 sec.

Second display system

0(disabled)

0:00

0 sec.

0(disabled)

0:00

Function in mode 4 (Flowmeter Mode)

No. Setting item Description Input range Default value

F1 High set point 1 value F2 Low set point 1 value F3 High set point 2 value F4 Low set point 2 value

Hysteresis of the high and

low set point 1 values Judgment output timer

at startup Minimum ow (display value) Frequency of the moving average

F9 Pre-arithmetic function Promptly performs the deceleration display when the signal is lost 0(disabled)/1(enabled) 0(disabled)

Sets the high set point 1 value 000000 - 999999 0 Sets the low set point 1 value 000000 - 999999 0 Sets the high set point 2 value 000000 - 999999 0 Sets the low set point 2 value 000000 - 999999 0

Sets the hysteresis of the high and low set point 1 values 0 - 99 0

Sets the time when the comparator judgment is output at startup 0 - 99 sec. 0 sec.

Sets the revolution speed to be displayed as zero 000000 - 999999 0

Used when variation of the revolution speed is large and a stable display cannot be attained

0(disabled)/1(3 times)/2(10 times)

0(disabled)

*1 For details about the high set point 1 and 2 values, as well as the low set point 1 and 2 values, refer to “Comparator Function” on page 17.

*2 About the judgment output timer at startup

When you set the value larger than 1 in the function item “F6 Judgment output timer at startup”, the judgment output timer function can be used. After the power is turned on, judgment starts when the judgment output timer setting time has elapsed after the start of measurement.

Judgment output timer

Judgment

判判

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Power ON

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判判判判

Judgment startMeasurement start

判判判判判判 ON

Page 22

*3 About the minimum revolution speed (minimum ow)

When you set a value larger than 1 in the function item “F7 Minimum revolution speed (minimum ow)”, the following functions can be used.

● In mode 1 and mode 2, the display value is “0” when the measurement revolution speed becomes less than the minimum revolution speed(In mode 2, the display shows “-.-.-.-.-.-.”).●●

● In mode 4, the display value is “0” when the measurement display value becomes less than the minimum ow.

Mode

1: Judgment condition: (Input frequency/P1 setting value)*60 ● Minimum revolution speed ● Display value

Mode

2: Judgment condition: (Input frequency/P1 setting value)*60 ● Minimum revolution speed ● Display value = Mode 3: No judgment Mode 4: Judgment condition: Display value < Minimum ow ● Display value = “0”

= “0”

“-.-.-.-.-.-.”

Revolution speed

Minimum

表表表表表表

revolution speed

Display value

表表表 0

Display value

表表表

Input pulse

表表表表表

Measurement speed

表表表表

Time

*4 About the frequency of the moving average

When you select values other than “0” in the function item “F8 Frequency of moving average”, the frequency of the moving average function can be used. Displays the measurement value per display cycle averaged by the frequency of the moving average.

● When the moving average function is not set (F8 setting value “0”)

Measurement value ● Measurement value ● Measurement value ● Measurement value ● Measurement value ●

Display update Measurement value ●

● When the moving average function is set (F8 setting value “1”, “2”)

Displays the measurement value per display cycle averaged by the frequency of the moving average. The gure below shows the relationship between the display update in the F8 setting “0” (moving average: 3 times) and averaging.

Display update Measurement value ●

●*The measurement values ● to ● represent the average of the measurement values per display update cycle.

Measurement value ● Measurement value ● Measurement value ●

Display update

Measurement value ● Measurement value ● Measurement value ●

Display update Average of the measurement

Display update Average of the measurement values ● , ● , and ●

values ● , ● , and ●

Average of the measurement values ● , ● , and ●

●*The measurement values ● to ● represent the average of the measurement values per display update cycle.

*5 About the pre-arithmetic function

When you select “1” in the function item “F9 Pre-arithmetic function”, the pre-arithmetic function can be used. Promptly performs the deceleration display when the input signal is lost.

Display value

Pre-arithmetic

表表表表表表

function display

Input pulse

表表表表表 0

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When the auto zero function is activated, the display becomes “0” (“-.-.-.-.-.-.” in mode 2 and mode 3).

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Display value

表表表

Input pulse

表表表表表

Time

Page 23

●

24. Option -FVT/-FVC

When equipped with -FVT/-FVC option, analog signal output (voltage/current) is available according to the displayed data.

●

1. Specications for -FVT/-FVC Option

Model -FVT/-FVC

Current output 4 ● 20mA

Output

Load

Connector

●FVC)*

*Cables are to be connected by the user.

●

2. Connection for -FVT/-FVC Option

Voltage output

Output current below 500Ω Output voltage above 1kΩ Meter :PCS-E36LMD Attachment : ●Plug● PCS-E36SF●●Cover● PCS-E36LA (Both manufactured by HONDA TSUSHIN KOGYO CO., LTD.)

0 ● 10V 1 ● 5V 0 ● 1V

Select one of these four output options

●●

-FVT Option (Terminal block)

C+ C- NC NC

V10+ V10- V5+ V5- V1+

11 12 13 14 15 16 17 18 19 20

+ + + +- - - -

4 ● 20mA 0 ● 10V 1●5V 0●1V

*Select one out of these output options

V1-

● ●

-FVC Option (Connector)

Code Pin number Code

C+

4 ● 20mA+

NC 3 21 NC NC 4 22 NC NC 5 23 NC NC 6 24 NC NC 7 25 NC NC 8 26 NC

V10+

0 ● 10V+

NC 11 29 NC NC 12 30 NC

V5+

1 ● 5V+

NC 15 33 NC NC 16 34 NC

V1+

0 ● 1V+

*Select one out of these output options *1 and 2 are interconnected to each other. 9-10, 13-14, 17-18, 19-20, 27-28, 31-32, 35-36 are also interconnected respectively.

1 19 2 20

9 27

10 28

13 31 14 32

17 35 18 36

4 ● 20mA-

0 ● 10V-

1 ● 5V-

0 ● 1V-

Connector numbering (as the plug is viewed from wire connection side)

C-

V10-

V5-

V1-

1 2 3 4 ● 17 18

19 20 35 36

● ●

● The connector next to “1”marking is #2 terminal.

● Suggested wiring order is 1● 3● 5 ● 20● 22● 24 ● for the ease of nding the right numbering.

● Please use extra caution in soldering, as the clearance is small.

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35 36

Page 24

●

3. -FVT/-FVC Option Setting

When equipped with -FVT/-FVC option, following setting options are enabled from function setting feature.

No. Setting item Description Input range Default

Maximum analog

F11

Minimum analog

F12

Analog signal

F13

output timing

Analog signal

F14

output oset

signal displayed

value

signal displayed

value

Set the displayed value which corresponds to the maximum value of each analog signal.

● 4 ● 20 mA

● 0 ● 10 V

● 1 ●●5 V

● 0 ●●1 V

Set the displayed value which forces the output of the minimum value of each analog signal.

● 4 ● 20 mA

● 0 ● 10 V

● 1 ●●5 V

● 0 ●●1 V

Maximum speed when the period is zero.(10ms). When the period is 1, analog signal output is renewed at each display renewal cycle.

● when the frequency is above 200Hz

Set the output oset value as the percentage of the output range for each analog signal.

● 4 ● 20 mA

● 0 ● 10 V

● 1 ●●5 V

● 0 ●●1 V

● Maximum value●20 mA

● Maximum value●10 V

● Maximum value●●5 V

● Maximum value●●1 V

● Minimum value●4 mA

● Minimum value●0 V

● Minimum value●1 V

● Minimum value●0 V

● Output range●16mA

● Output range●10V

● Output range●●4V

● Output range●●1V

Mode 1 ●000000●●●999999● 1000

Hour:Minute:Second ●_0:00:00●●●_9:59:59● Displayed in Seconds

Mode 2

Hour:Minute:Second ●_0:00:00●●●_0:59:59● Displayed in Seconds

Mode 3

Mode 4 ●000000●●●999999● 1000

Mode 1 ●000000●●●999999● 1000

Hour:Minute:Second ●_0:00:00●●●_9:59:59●

Mode 2

Displayed in Seconds ●_000:00●●●_999:99●

Hour:Minute:Second ●_0:00:00●●●_0:59:59●

Mode 3

Displayed in Seconds ●_000:00●●●_999:99●

Mode 4 ●000000●●●999999● 1000

● _ 0_ ● (Maximum speed )/

● _ 1_ ● (In sync with display renewal)

●__-100.0●●●__100.0●● 0●

10:00Displayed in Seconds ●_000:00●●●_999:99●

Displayed in Seconds

10:00

Displayed in Seconds

10:00

(Maximum speed)

● When oset is OFF ●o set F14 = 0●●

● When oset is ON ●o set F14 > 0●

● When oset is ON ●o set F14 < 0●

displayed value ● F11set value Maximum value ●20mA● 10V● 5V● 1V●

F12 ● displayed value ● F11 (Maximum value/ F11)× Measured value for analog output displayed value ● F12 set value Minimum value ●4mA● 0V● 1V● 0V●

displayed value ● F11´● Maximum value ●20mA● 10V● 5V● 1V●

F12 ● displayed value ● F11´

displayed value ● F12 set value

displayed value ● F11´● Maximum value ●20mA● 10V● 5V● 1V●

F12 ● displayed value ● F11´

displayed value ● F12 set value Minimum value ●4mA● 0V● 1V● 0V ) - (Oset value)

Condition Analog output value

(Maximum value/ F11)×Measured value for analog output+

●

(Oset value) Minimum value ●4mA● 0V● 1V● 0V) + (MAX ●● F14(● ))

● F11' is the displayed value when the analog output value, including F14(%) of the output range, is equal to the MAX value.

Example) Assuming the output is 10V, F11= 200, F14 = 10(%), then F11'= 180,

therefore the output is 10V when the displayed value is above 180.

Condition Analog output value

(Maximum value/ F11)×Measured value for analog output-

●

(Oset value)

● The minimum value for MIN-F14(%) in the diagram above is 0mA, in the case of current output (4 ● 20mA)

Example) Assuming the output is 10V, F11= 200, F14 = -10(%), then F11'= 220,

therefore the output is 10V when the displayed value is above 220.

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● The minimum value for MIN-F14(%) in the diagram above is 0mA, in the case of current output (4 ● 20mA)

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Page 25

●

25. Option -BCD

When equipped with -BCD option, Binary Coded Decimal output is possible

●

1. Specications for -BCD Option

NPN Open collector output Output capacity 30VDC●20mA

Open collector input

Data output 6 digits BCD code Decimal point output DP1 ● 4 ●1 ● 4 digits after decimal point●

Control output

Control input

Connector

Positive-logic-negative-logic available for BCD and decimal point output (opted at Function 10)

Model -BCD

Open collector (NPN) input

LO input

HI input Leakage current : maximum 0.1mA

PLUS When output data is positive, PLUS turns to LO DT OUT When DATA OUT is HI, output signal is set OVR When displayed value overows, OVR turns to LO HOLD While HOLD is LO, output data does not renew ENABLE While ENABLE is LO, output has high impedance

Meter :PCS-E36LMD/ Accessory side: ●Plug● PCS-E36FS●●Cover● PCS-E36LA (Both manufactured by HONDA TSUSHIN KOGYO CO., LTD.)

Load capacity : minimum 5mA 0 ● 1.5V

● Cable connection is to be done by users.

● Timing chart

Measured data

HOLD signal

BCD output

DT OUT signal

ENABLE signal

“H”

“L”

“H”

“L”

“H”

“L”

“00000” data 1

hold

“00000” “00000” data 1 data 2 data

data out

renewal

about 6 msec

data 2

about 100 msec

data 3 data 4

high impedance

data

●

2. Connection for -BCD Option

in/out Code ●●Pin number Code in/out

1 1 19 1

×10

2 2 20 2 4 3 21 4

×10

8 4 22 8 1 5 23 1 2 6 24 2 4 7 25 4 8 8 26 8 1 9 27 1 2 10 28 2 4 11 29 4

×10

Out put

×10

8 12 30 8

PLUS 13 31 DP1

DT OUT 14 32 DP2

OVR 15 33 DP3

Input

HOLD 16 34 DP4

ENABLE 17 35 GND

GND 18 36 GND

Connector numbering (as the plug is viewed from wire connection side)

1 2 3 4 ●17● 18

● The connector next to “1”marking is #2 terminal.

● Suggested wiring order is 1● 3● 5 ● 20● 22● 24 ● for the ease of nding the right numbering.

●

Please use extra caution in soldering,

as the clearance is small.

Out put

HOLD input circuit

Tachometer

Attachment example

Output circuit

Tachometer

Attachment example

OUTPUT

ENABLE input circuit

Tachometer

Attachment example

19 20 35 36

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Page 26

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3. -BCD Option Setting

When equipped with -BCD option, following setting options are enabled from function setting feature.

No. Setting item Description Input range Default

F10 BCD output logic

● F10 sets positive/negative logic for BCD output, Decimal point output, PLUS, OVR.

● Logic for DT OUT, HOLD, ENABLE signals cannot be set.

Set as 0 for negative logic, set as 1 for positive logic

(decimal point output)

● _ 0_ ● (Negative logic)/

● _ 1_ ● (Positive logic)

● BCD output display specications

Negative logic

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Page 27

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26. Option -TRT

When equipped with -TRT option, comparison result output is possible.(LL,L,GO,H,HH,ZERO)

●

1. -TRT option specications

Model -TR T Output capacity 30VDC●20mA Rsidual voltage Less than 1.5V

Measured value ● Low set point 2 value LL signal is ON

Measured value ● Low set point 1 value L signal is ON

Output signal

Output is insulated from internal circuitry

Low set point 1 value ● Measured value ● High set point 1 value GO signal is ON High set point 1 value ● Measured value H signal is ON High set point 2 value ● Measured value HH signal is ON Measured value = 0 ZERO signal is ON

Negative logic open collector output

●

2. -TRT option connection

COM L L HH NCCOM Z ZERO

COM H H

11 12 13 14 15 16 17 18 19 20

common for

●

27. Option -CPT

signal

L, LL

Power (+12V ● +24V) Power (+12V ● +24V ) Power (+12V ● +24V )

When equipped with -CPT option, comparison result output is possible.(L,GO,H)

●

1. -CPT option specications

Output contact 1C

Rated load

Output signal

common for

GO, ZERO

- --

ZERO signal

signal

Load Load LoadLoad Load

+ + +

Model -CPT

Resistance load

Induction load cosφ =0.4

Measured value ● Low set point 1 value L signal is ON

Low set point 1 value ● Measured value ● High set point 1 value GO signal is ON

High set point 1 value ● Measured value H signal is ON

signal

common for

signal

HH, H

Load

250VAC 5A 100K operations

30VDC 5A 100K operations

250VAC 2.5A 100K operations

30VDC 2.5A 100K operations

signal

no connect

Tachometer

Attachment example

●2.●

-CPT option connection

Output circuit

L COM L H NCGO

COM GO

H COM HL

11 12 13 14 15 16 17 18 19 20

B contact

for L

common

for L

A contact

for L

B contact

for GO

common

for GO

A contact

for GO

B contact

for H

common

for H

A contact

for H

no connect

Tachometer

Load

Attachment example

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Page 28

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28. DT

-501X / DT-501F series model list

This operation manual is applicable to following models.

Model

Input spec AC power type DC power type

Standard

input

Dierential

input

DT-501XA-FVT DT-501XD-FVT DT-501XA-FVT-BCD DT-501XD-FVT-BCD -BCD BCDoutput DT-501XA-TRT DT-501XD-TRT DT-501XA-TRT-FVC DT-501XD-TRT-FVC -FVC Voltage output DT-501XA-TRT-BCD DT-501XD-TRT-BCD -BCD BCDoutput DT-501XA-CPT DT-501XD-CPT DT-501XA-CPT-FVC DT-501XD-CPT-FVC -FVC Voltage output DT-501XA-CPT-BCD DT-501XD-CPT-BCD -BCD BCD output DT-501XA-FVC DT-501XD-FVC - -FVC Voltage output DT-501XA-BCD DT-501XD-BCD - -BCD BCD output DT-501FA-FV T DT-501FA-FV T-BCD -BCD BCD output DT-501FA-TRT DT-501FA-TRT-FVC -FVC Voltage output DT-501FA-TRT-BCD -BCD BCD output DT-501FA-CPT DT-501FA-CPT-FVC -FVC Voltage output DT-501FA-CPT-BCD -BCD BCD output DT-501FA-FVC - -FVC Voltage output DT-501FA-BCD - -BCD BCD output

-FVT Voltage output

-TRT Transistor output

-CPT Relay output

-FVT Voltage output

-TRT Transistor output

-CPT Relay output

Option 1 Option 2

*For the detail of standard input and dierential input, please refer to following pages.● Standard input : P5 Input Specications Dierential input : P6 Input Specications

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