HANYOUNG GE 3N, GE 4N, GE 6N, GE 7N Digital Counter & Timer INSTRUCTION MANUAL

MD0106E170414
Digital counter & timer
GE series
INSTRUCTION MANUAL
Thank you for purchasing HANYOUNG product.
Please check whether the product is the exactly same as you ordered.
Before using the product, please read this instruction manual carefully.
Please keep this manual where you can view at any time
HANYOUNGNUX CO.,LTD
HEAD OFFICE
Safety information
Specification
Before using the product, please read the safety information thoroughly and use it properly.Alerts
declared in the manual are classified to Danger, Warning and Caution by their criticality.
DANGER
DANGER indicates an imminently hazardous situation which,
if not avoided, will result in death or serious injury
WARNING
WARNING indicates a potentially hazardous situation which,
if not avoided, could result in death or serious injury
CAUTION
CAUTION indicates a potentially hazardous situation which, if
not avoided, may result in minor or moderate injury
Model
Power supply voltage
Power consumption
Charater height(㎜)
Input counting
speed
Input
•Do not touch or contact the input/output terminals because it may cause electric shock.
WARNING
Control output
CAUTION
Appearance
Type
Displayable digit
Setting stage
Communication
☐
☐
☐
4
6
2
1
M
-
GE6N
Communication
protocol
Communication
type
Communication
method
Communication
synchronization
Communication
speed
Effective
distance
Maximum
number of
connections
Response
waiting time
Start bit
Stop bit
Data bit
Parity bit
GE3N
GE7N
100 - 240 V a.c. 50 - 60 ㎐, (voltage fiuctuation : ±10 ％)
Approx. bellow 13.5 VA(100 - 240 V a.c.)
11 (computed), 8 (set value)
13 (computed), 10 (set value)
1 cps, 30 cps, 1 kcps, 10 kcps
(ON/OFF ratio : 1:1, "H" level : 5 - 3 V d.c., "L" level : 0 - 2 V d.c.)
10 years (non-volatile memory)
CP1, CP2, RESET, BATCH RESET (exclude TOTAL) 4inputs
[H] level 4 - 30 V d.c., [L] level 0 - 2 V d.c. Internal pull up/pull
down resistance connection due to NPN/PNP setup
START, INHIBIT, RESET Min. input signal range : select either 1 ㎳, 20 ㎳
12 V d.c. 100 ㎃ max
0.01 - 99.99 s [OUT1, OUT2(OUT)]
1c (OUT)
1a (OUT)
1c (OUT)
OUT2 of GE6N-P62M/P42M consists of 1a
a contact : 250 V a.c. 5 A (resistive load), b contact : 250 V a.c. 2 A
GE4N-P61M/P41M, GE6N-P61M/P41M consists of NPN 1point(BAT.O)
NPN 2 contact (OUT1, OUT2)
Open collector, 30 V d.c., 100 ㎃ max
With power start : ±0.01 % ±0.05 sec max
With reset start : ±0.01 % ±0.03 sec max
ModbusRTU
RS485
2-wire half-duplex
Asynchronous
2,400 / 4,800 / 9,600 / 19,200 / 38,400 bps
Up to 800 m
31 units (station number: 1 to 127)
5 ~ 99 ms
1bit (fix)
1bit (fix)
8 bit
None / Odd / Even
100 ㏁ min (500 V d.c.) Between current-carrying terminals and exposed
Insulation resistance
non-current -carrying metal parts.
Dielectric strenght 2000 V a.c. 60 Hz for 1 min (diferrerent recharging terminal from each other)
Square wave by the nois simulator (1 ㎲ pulse per 16 ㎳)
Noise resistance
±2 ㎸ (Power supply terminal), ±500 V (Input terminal)
Vibration resistance 10 - 55 ㎐, peak amplitude 0.5 ㎜, 3 axis each direction for 2 hour
Shock resistance
300 ㎨, 3 axis each three times
Relay
life
Electrical
100 thousand times min (250 V a.c. 2 A resistance load)
Mechanical
Protection structure
Storage temperature
Ambient temperature
humidity
Weight
Suffix code
☐- ☐
3N
4N
6N
7N
P
T
Noncontact
Timer action error
• T he contents of the instruction manual are subjective to change without prior notice.
•P
lease make sure that the specification is the same as what you have ordered.
•P
lease make sure that the product is not damaged during shipping.
•P
lease use this product in a place where corrosive gas
(such as harmful gas, ammonia, etc.) and flammable gas do not occur.
•P
lease use this product in a place where there is no direct vibration and a large physical
impact to the product.
•P
lease use this product in a place where there is no water, oil, chemicals, steam, dust,
salt, iron or others (Contamination class 1 or 2).
• Please do not wipe this product with organic solvents such as alcohol, benzene and
others. (Please use mild detergent)
•P
lease avoid places where excessive amounts of inductive interference and electrostatic
and magnetic noise occur.
•P
lease avoid places where heat accumulation occurs due to direct sunlight or radiant heat.
•P
lease use this product in a place where the elevation is below 2,000 m.
•P
lease make sure to inspect the product if exposed to water since there is a possibility of
an electric leakage or a risk of fire.
• If there is a lot of noise from the power line, installing an insulated transformer or a noise
filter is recommended. The noise filter should be grounded on the panel and the lead wire
between the output of the noise filter and the power terminal of the instrument should be
as short as possible.
• It is effective against noise if making the power lines of the product the twisted pair wiring.
•P
lease do not connect anything to the unused terminals.
•P
lease connect wires properly after making sure the polarity of terminal.
•P
lease use a switch or breaker (IEC60947-1 or IEC60947-3 approved) when the product
is mounted on a panel.
•P
lease install a switch or break near the operator to facilitate its operation.
• In order to use this product properly and safely, we recommend periodic maintenance.
•S
ome parts of this product have limited expected life span and aged deterioration.
GE
Contact
Min input signal
External supplying power
ONE SHOT output
1st level
2nd level
capacity
1st level
2nd level
capacity
• If the user use the product with methods other than specified by the manufacturer,
there may be bodily injuries or property damages.
• If there is a possibility of an accident caused by errors or malfunctions of this product,
install external protection circuit to prevent the accident.
• Since this product does not have the power switch or a fuse, please install those
separately on the outside. (Fuse rating: 250V 0.5A)
• T o prevent damage or failure of this product, please supply the rated power voltage.
• To prevent electric shock or equipment failure, please do not turn on the power until
completing wiring.
• S ince this is not explosion-proof structure, please do not use in a place where
combustible or explosive gas is around.
•N
ever disassemble, modify, or repair the product. There is a possibility of a malfunction,
an electric shock, or a risk of fire.
•P
lease turn off the power when mounting/dismounting of the product.
This is a cause of an electric shock, a malfunction, or failure.
•S
ince there is a possibility of an electric shock, please use the product as mounted on
a panel while the power is being supplied.
Code
GE4N
Memory back-up
DANGER
Model
28, Gilpa-ro 71beon-gil, Nam-gu, Incheon, Korea
TEL : (82-32)876-4697
FAX : (82-32)876-4696 http://www.hynux.com
1 million times min
IP65 (Front part only)
-20 ℃ ~ 65 ℃
-10 ℃ ~ 55 ℃, 35 ％ ~ 85 ％ RH
Approx. 133 g
Approx. 138 g
Approx. 203 g
Approx. 203 g
Description
Maximum counting speed
Digital counter & timer
96(W) × 48(H) ㎜
48(W) × 48(H) ㎜
72(W) × 36(H) ㎜
72(W) × 72(H) ㎜
Preset counter
Total counter (Only for indication)
4 digits (9999)
6 digits (999999)
2 Stage setting
1 Stage setting
No setting
RS485(MODBUS-RTU)
No setting
The maximum counting speed is the maximum response speed when the duty ratio
(ON / OFF ratio) of the count input signal is 1: 1.
① Even when the input signal is below the maximum counting speed, if the ON time or the OFF time
is unilaterally less than the specified minimum signal width, the counter may not becounted.
② Minimum signal time
※ The minimum signal time is 'ON' time
Counting speed
Minimum Signal Time
selection
and 'OFF' time.
1 cps
500 ㎳
30 cps
16.7 ㎳
1 K cps
0.5 ㎳
10 K cps
0.05 ㎳
time
time
1
Power supply
Function setting mode
operation mode
more than 3seconds
more than 3seconds
Note 1) ) If the
function is
,
set the idle time in
1step
During the first 100 ㎳ after power input and first 200 ㎳ after power opening,
it is consider as ascend and descend time of internal power and external output power.
Therefore, it does not operate during unstable period in order to prevent from malfunction
which is caused by unstable output operation of external sensor
※ Supply signal only after 100 ㎳ following the power input.
※ Supply power only after 200 ㎳ following the power shutdown.
1step
1step
2step
2step
※Note1)
2step
Part name and functions
█ GE3N
█ GE6N
①
⑨
②
⑩
⑫
③
④
⑪
⑤
⑥
⑦
①
⑨
⑩
⑫
②
③
④
⑤
⑪
⑥
█ GE4N
█ GE7N
①
①
③
④
⑤
⑧
⑨
⑦
⑧
⑧
②
③
⑦
⑥
⑩
⑪
④
⑤
⑧
⑫
⑨
②
⑦
⑥
⑩
⑪
⑬
Counter function setting mode
①C
oefficient display (RED FND)
D
isplay coefficient value (counter), time process value (timer), batch coefficient value and setup list.
② Setup display (GREEN FND)
Display setup value (counter), setup time (timer), batch setup value, instant output setup
(batch setup is 0 in Timer) and setup contents
③ SET1, SET2 (SET), BAT
Indicates the status of coefficient section and setup section (BAT lamp corresponds to batch status.)
④ TIM (Timer)
This flashes when the timer progresses and remains lighted when the device stops from
inhibit input or reset. (It is indicated in Change Mode of the device during TIM/TTWIN setup.)
⑤ CNT (Counter)
This is indicated during 1CNT/2CNT setup in Change Mode of the device.
⑥ OUT1, OUT2(OUT), BAT.O (Output Action Indication)
• BAT.O lights when batch setting value is set. (BAT.O output)
• When the batch setting value is 0 (timer), it operates as instantaneous output, BAT.O lights and output
• Indication model lights in CP1, CP2, RST input.
⑦ LOCK:Key Lock (KEY LOCK) Action IndicationThis lights up during Lock Setup.
⑧
: Entering function setting mode and ending (automatic saving of function setting value
at the end), switching from 1-step set value / 2-step set value / batch coefficient
value and set value in operation mode
⑨
: Move to set value change mode and move set value digit,
enter communication setting mode in function setting mode
⑩
: Increase setting value in function setting mode and setting value changing mode
⑪
: Initialize count value and output status, set value in function setting mode and set value change
mode ※ When the SET lamp and BAT lamp are lit at the same time, the RST key does not work.
⑫
: Batch and operation mode 1 stage and 2 stage conversion key. When BAT
lamp light, it is batch mode and keep operate.
⑬
: DOWN Key
Sign
Preset
Preset Counter
Batch counter
Timer
Twin timer
Batch timer
Batch
Timer
Twin
Batch
Counter
* Display only models do not support batch counter, batch timer, and
twin timer.
Input
mode
UP-A
UP-B
UP-AB
DOWN-A DOWN-B DOWN-AB
UP/DOWN UP/DOWN UP/DOWN UP/DOWN
-A
-B
-C
-D
Output
mode
N
F
C
R
K
P
Counter
UP/DOWN UP/DOWN
-E
-F
Q
Counter
A
•Setting the output time of OUT2 or OUT
Two-stage
OUT2/ •In some output modes, 00.00 cannot be set set type
OUT
One-stage
Output time
00.00
99.99
set type
•OUT1 output time setting
OUT1
Two-stage
Output time
set type
HOLD
Counting
speed
99.99
•Maximum counting speed setting (when the duty ratio is 1: 1)
Counter
1
30
1K
10K
Freescale •Can be set to 5 decimal places
Decimal
Point
0.00000
00.0000
000.000
0000.00
Explanation of operation mode
Operation mode
Display
condition
Setting contents
timer
counter
Operation Counter counter
* In the operation mode setting step, communication function can be
mode
set when
Key is input.
※ TOTAL Model does not have Setup Indication Section, SET1, SET2 and BAT Lamp. OUT1, OUT2,
BAT.O change their use as CP1, CP2, RST Input Status Check Lamp. 1 Stage Setup Model does
not have SET1 and OUT1 Lamp, and SET2 is displayed as SET and OUT2 is displayed as OUT.
sign
Designation
Freescale
Explanation
When the count value reaches the 1st and 2nd stage set
value, 1st and 2nd stage output is operated according to the
selected output mode.
The number of count-ups of the counter is counted and
the batch output is activated when the batch count value
reaches the batch set value.
When the timing value reaches the setting value of 1st and
2nd stage, 1st and 2nd stage output is operated according
to the selected output mode.
OUT1 output and OUT2 output are turned ON / OFF
according to ON setting time and OFF setting time. (OUT
output is operated in 1-stage model, OUT1 output and OUT2
output are operated simultaneously in 2-stage model)
The time-up count of the timer is counted and the batch
output is activated when the batch count value reaches the
batch set value.
Show
decimal
point
Reset time
Blackout
memory
Show input
logic
Key lock
* The initialization of the batch count value can be initialized by pressing the front reset button
in the batch count value display mode or by applying a signal to the batch reset terminal.
2
Offset
0.00001
Counter
00000.0
Counter
999999
※ Decimal point display cannot be larger than the decimal
point of the free scale.
0.00000
00.0000
1 ms
20 ms
000.000
0000.00 00000.0
Counter
000000
Counter
•SAVE (save operation status), CLEAR (reset operation status)
Counter
SAVE
CLEAR
•NPN / PNP input selection status of the side dip switch
Counter
NPN
PNP
LOCK
OFF
LOCK
ON
LOCK
SETUP
LOCK
RESET
•Available only in UP mode, counted from the set offset value.
※ It cannot be used with Twin Timer.
000000
999999
Counter
Counter
Initial
value
Input connection method
█ Output connection
█ Input Logic Selection
● Example of non-contact output
Operate the conversion switch after confirming NPN/PNP indication which is displayed on the right
•W
hen using the inductive load (relay and
etc), please conect the surge observer
(diode and varistor) on the both ends of
the load. Also please use with GND
since the internal circuit and
non-contact output are isolated from
one another. please select the proper
power for load and load. Non-contact
output cannot exceed the max 30 V 100 ㎃.
※ For receiving Open Collector Input, Input Logic (PNP/NPN) Conversion Switch is embedded internally
to Pull up / Pull down the resistance of 4.7 kΩ (NPN Setup during shipment)
PNP setting
NPN setting
Input
type
Voltage Input
Input PNP O.C
NPN voltage Input
NPN O.C
H
5 - 30 V d.c.
5 - 30 V d.c.
0 - 2 V d.c.
0 - 2 V d.c.
L
0 - 2 V d.c.
OPEN
5 - 30 V d.c.
OPEN
█ Input connection
● Example of contact output
●NPN (non-voltage input) state
•A
void the flow of excessive current since
it is 250 V a.c. NO 3 A (loadresistance)
NC 2 A(load resistance), and
theconnection must correspond to
standard connection method.
Relay output
resistance : 22Ω, Condenser : 0.1㎌, Voltage : 630 V a.c.
Counter input action
●PNP (voltage input) state
‘A’ needs value greater than min signal width, B need value greater than half of min signal width.
※ Input Logic Setup Status can be
verified in Function Setup Mode.
※ Internal Imp e danc e is 4.7㏀, and
switches over to Pull Up or Pull Down
from NPN/PNP Selection.(Refer to Input
Connection)
Counter operation mode
█ Preset Counter
● First-stage counter
● Two-stage counter
Count value
Count value
Setting value
1-stage
setting value
Count value
2-stage
setting value
█ Batch counter
● 1-stage / 2-stage counter
Count value
Setting value
적산 카운터
Batch Factor Value
Batch settings
Count value
• When using encoder (incremental method). Please use
Notice) The input Login of above list is PNP.
Batch Factor Value
3
Counter output action mode
delay time
One Shot output time
0.01s~99.99s
※A
s for 1 Stage counter (OUT), it is the same as
2ND output (OUT2) action.
Output
Mode
One shot output of OUT1 output
Self holding output
Self holding output
Input Mode
UP
One shot output of OUT1 output
Post count up action
UP/DOWN/A,B,C
DOWN
Self holding output
Coefficient value indication is maintained and setting up HOLD (0)
leads to self holding output. Also, setting up time leads to OUT2
output after one shot delay setup.
OUT1 and OUT2 become OFF when reset and return to Start.
Coefficient value indication is continuously processed and setting up
HOLD (0) leads to self holding output. Also, setting up time leads to
OUT2 output after one shot delay setup.
OUT1 and OUT2 become OFF when reset and return to Start
Coefficient value indication is continuously processed during START
state and OUT2 yields one shot output.
Self holding output of OUT1 is turned off when OUT2 is turned OFF
(Repetitive action)
Coefficient value indication is maintained during One Shot Time,
and then resets. (Repetitive Action)
Coefficient value indication is continuously processed.
OUT2 yields one shot output. Self-maintenance output of OUT1 is
turned off after one shot time of out2
When coefficient value returns to initial state, then coefficient value
indication is maintained for one shot time. After processing one shot
time, it displays processed coefficient value.
(Repetitive Action)
Coefficient value increases and OUT2 yields One Shot Output.
The device is reset after the One Shot Output.
(Repetitive Action)
Coefficient value is maintained and OUT2 yields one shot output.
OUT1 and OUT2 are independent from each other.
If OUT1 is same as setup value of SET1, it leads to one shot output
or self-maintenance output.
(In case of Level 1 setup type, OUT1 and OUT2 are same each other)
Reset refers to OUT1 and OUT2 become OFF and coefficient value
being initialized.
Counter output operation of exclusive indication (GE-T)
UP
DOWN
UP/DOWN/A,B,C
Flashing
4
■Set value is first to decrease within Down Mode
•-99999 (6 digits),-999 (4 digits),
it flashes and does not get counted
•Within UP MODE, it increases to the maximum
display value, initializes to 0 and increases again
Timer operation mode
█ Key lock level selection (
)
Key lock level selection
█ Timer
Explanation
Unlock keys
● 1 step timer
● 2step timer
Key lock {except mode (
Revelation
value
Revelation value
Setting
value
1 step setting
value
Set (
) key}
)key lock
Reset (
) key lock
Timer function setting mode
Revelation
value
sign
designation
2 step setting
value
Display
condition
Setting contents
Preset
Batch
Timer
Twin
Initial
value
Batch
Counter counter
timer
timer
operation
Counter/
* In the operation mode setting step, communication function can be
Timer
mode
set when
배치 카운터
█배치
Batch
timer
카운터
key is pressed.
The트윈타이머
display-only model does not support batch counter,
트윈타이머* placement
timer, and twin timer.
decimal /
sexagesimal
notation
● 1step/2step timer
10
Time
range
Revelation Value
Timer/
Twin timer
60
U.01s
D.01s
U.1s
U1s
D.1s
U1m
D1s
D1m
Timer/
Twin timer
U1h
D1h
Setting value
POND
Output
mode
Batch Factor
S.OND
SOND
S.ON1
S.F-P
SOFD
S.INT
SINT
S.FLK
SADD
S.F-R
S.F-Q
Batch settings
POND
Output
time
Revelation Value
Minimum
input
Batch Factor Value
Blackout
memory
트윈타이머
Show
input logic
█ Twin timer
● 2step timer (Operation mode : POND)
Key lock
POFD
1 ms
Timer
SAVE
NPN
CLEAR
Timer/
Twin timer
PNP
LOCK
OFF
LOCK
ON
Power RUN - ON delay
Signal RUN - ON delay
Signal RUN - OFF delay
Signal RUN - Interval
Signal RUN - Addition
Signal START - ON delay
Time range
Signal START - ON delay1
Signal START - Interval
6 digits time range
Decimal System Sixagecimal system Decimal System
Signal START - Flicker
Signal START - Flicker_R
Sixagecimal system
99.99 s
59.99 s
9999.99 s
59 m 59.99 s
999.9 s
9 m 59.9 s
99999.9 s
9 h 59 m 59.9 s
9999 s
59 m 59 s
999999 s
99 h 59 m 59 s
9999 m
99 h 59 m
999999 m
9999 h 59 m
9999 h
99 d 23 h
999999 h
9999 d 23 h
h : hour
Timer/
Twin timer
LOCK
SETUP
LOCK
RESET
Timer/
Twin timer
999999
*It cannot be used with
twin timers.
Timer
Timer operation mode
ON Time Setting value
m : minute
Twin timer
•SAVE (save operation status), CLEAR (reset operation status)
TIM(TIMER) Setting
※ s : second
•Input terminal minimum input time
selection (INHIBIT, RESET, START)
20 ms
000000
OFF Time Revelation Value
4 digits time range
S.OFD
99.99
Offset
OFF / ON repeat
DOWN
S.OND
Timer
HOLD
ON Time Setting value
UP
POFT
•Twin timer not displayed in some operation modes.
•It is available only in UP move, and the set offset value is displayed.
OFF Time Revelation Value
Range selection symbol
Timer
TTIM(TWIN TIMER) Setting
Power RUN
–ON delay
For total model
Power RUN
Signal RUN
Power RUN
–OFF delay
Signal START
–ON delay
Signal START
–OFF delay
Power RUN
–OFF time
Signal START - Flicker_P
Signal START - Flicker_Q
•CP1/INHIBIT function stops the time.
•[S.---] is activated when CP2 (START) is ‘ON’
•[S ---] is activated when CP2 is maintained ‘ON’, and resets when ‘OFF’.
•[P ---] activates with ‘POWER ON’
※ Setup
as
in order to compensate for interruption of electric power during ‘POWER
OFF’ (Indicates the Memorized Value when electric power is inputted again.)
※ In case of 1-step setting type, OUT1 is not applicable and OUT2 operation is same as OUT operation.
※ In case of 1-step setting type, SET1 is not applicable and SET2 operation is same as SET.
※ Apply reset signal to the external reset (RST) key or external reset terminal.
※ INHIBIT signal temporarily stops the time.
d : day
5
output time
setting
Power
█
█
Power RUN - ON delay
Power
Elapsed
Reset
Reset
Elapsed
time
Elapsed
Elapsedtime
time
Power
Power
Start
Start
Reset
• Runs when ‘POWER ON’
• Elapsed
OUT2 output is ON and maintain revelation value when time-up.
Power
• When
timeReset signal is authorized, process value initializes and runs.
Start
Reset
Signal RUN - ON delay
Elapsed
Power
time
Reset
█
Reset
• Time reveals as the external signal is permitted
•Power
OUT2 output is ON and maintain revelation value when time-up.
Elapsed
•
OutputPower
value and output initialization when external start signal is off
Start
time revelation value and output at reset input
• Initialize
Start
Reset
Reset
Signal RUN - OFF delay
Power
Elapsed
time
PowerElapsedStart
time
Reset
Reset
Elapsed
time
Elapsed
Power Power
Reset
time
Start Start
Power
Reset Reset
Elapsed
• Attime
the same time
astimethe external start signal is applied, out2 output on
output
setting
Power
Timing whenStart
external
start signal is off
•
Initialize
time
value
and out2 output at time-up
HOLD
setting
StartElapsed
Elapsed
Reset
timeand
• Reset
initialization at reset input
outputoutput
time
time value
setting
Reset
HOLD setting
█
Elapsed
time
time
Start Signal RUN - Interval
Power
Reset
Start Power
Power
Max
Reset
Start
Start Value
Elapsed MaxPower
time
Reset
Power
Elapsed
time
Start
Value
Reset
Start
Reset
OUT2 Elapsed
Elapsed
Reset
time time
OUT2
Elapsed
OUT1
Elapsed
OUT1
time
S.on1
OUT1
Reset
Start
Reset
• OUT2 output is ON and maintain revelation value when time-up.
Power
time
•Power
Maintain the time value until reset input
Start
• Initialize revelation value and output at reset input
Start
Reset
Reset
time
Elapsed
time
Elapsed
time
OUT2
(OUT)
Signal START - ON delay
Max
OUT1
PowerB
Start
S.F-r
Reset
Ba
E
Power
Elapsed
time
Start
Power
Power
Start
Start
Reset
Reset
Reset
Elapsed
Power
Reset
Reset
█
Elapsed
S.on1
time
S.on1
ResetSignal START - ON delay1
Elapsed
time
Power
Elapsed
Power
Start
time
Power
Start
Start
Reset
Start
Reset
Reset
Elapsed
Reset
Power
Start
S
OUT1
Reset
Start
Power Elapsed
time
S.F-pStart
Power
HOLD setting
output time
setting
Start
Reset
Power
Reset
Start
Elapsed
Reset time
P
E
Elapsed
Power
time
time
Elapsed
E
OUT2
Elapsed
timeS.on1
Start
Elapsed
(OUT) Power
Power
time
OUT2
Elapsed
OUT2
timePower
Power
(OUT)
OUT1
(OUT)
Reset
time
Start
Start
OUT2 Power
OUT1
Start
(OUT)
OUT1 OUT2 Start
OUT2
Reset
Reset
(OUT)
OUT1 Start
Elapsed
• OUT1
OFF time
Reset
Reset
Maxat the same time as external START signal is applied
OUT1
Value
time Reset
• During time-up, OUT2 output is ON, and the time value continues
Elapsed
Elapsed
to increase
S.OND time
Elapsed
time
S.F-r
•Elapsed
Initialize revelation value and output at reset input
time
S.OND
S.F-r Elapsed time
Power
time
Power
OUT2
S.F-q
Power
OUT2
Start
Power
Start
(OUT)
Power
OUT1
OUT2
StartPowerReset
Start (OUT)
OUT1
Reset
E
█ Start Signal START - Interval
Reset Start
OUT1
Power
Reset
Elapsed
Reset
Reset time
Elapsed
Start
E
Power
Power
Elapsed
time
Power
Elapsed
time
Reset
Start
Start
time
ElapsedOUT2
Elapsed
S.OND
OUT2
time
S.F-r
Reset
time
(OUT)
BAT.
OUT2
Reset
OUT2
OUT1
Elapsed
RESE
OUT1 Max
(OUT)
OUT2 Power
time
Value
OUT1 (OUT)
Power
OUT1
Elapsed
Elapsed
Batch s
Start
OUT1
time
Start time
Reset
Reset
S.F-p
S.F-p
•
Output of OUT2 is ON when an external START signal is applied and ON time
Power
Power
•Start
Initialize
time value and out2 output at time-up
Power
Start
• Output value
and output initialization when external start signal is off
Power
Start Start
Reset
•
Initialize
revelation
value and output at reset input
Reset
Power
Start
Max
Reset Reset
Max
ValueReset
Start Value
Elapsed
Elapsed
Reset
Elapsed
time Elapsed
time
time time
Elapsed
Start
Reset
time
Max
• Time reveals
Value as the external signal is permitted
•
During
time-up,
OUT2
output
is
ON,
and
the
time
value
continues
to
increase
Power
Elapsed
Power Elapsed
OUT2
• Initialize
time revelation value and output at reset input
(OUT)
time
Start
Power
Start
time
Power
Power
Power
Elapsed
time
Start
Power
Elapsed
Power
OUT2
Start
Reset
Elapsed
time
Power
Elapsed
Power
time
Start
E
Elapsed
Reset
Elapsed
time
Reset
Max
Value
Value
Elapsed
Power
Power
time
Elapsed
time
Start
Start
Start
Start
Elapsed
time
• Time reveals only while external START signal is applied.
Elapsed
time
Reset
Start
Power
Reset
Start
Start
time
Reset
█
Start
Signal RUN - Addition
Reset
Power
Power
Start
█
Power
Start
Batch outp
Elapsed
S.dut time
Power
Elapsed
Power
time
Start
Power
• Output
Start of OUT2 is ON when an external START signal is applied and ON time
Power
Start
Power
Reset
Power OUT2
OUT2
• Initialize time value and out2 output at time-up
Reset
Reset (OUT)
• Output
value
and
output
initialization
when
external
start
signal
is
off
Start OUT1
Start
BAT.
Max
BAT. OUT1
•
InitializeValue
revelation value and output at reset input
Elapsed
RESET
Reset
RESET
Reset
time
Power
Elapsed
Elapsed
time
timesettings
Batch
Batch
OUT2settings
6
Elapsed
(OUT)
OUT2
OUT1time
(OUT)S.F-p
S
Elapsed
time
Max
Value
ratio(%)
E
E
timetime
time
S.F-p
S.F-p
OUT1
Powe
Power
█
S.F-q
StartSignal START - Flicker - Q
Power
Reset
Power
Start
Power
Signal START - Flicker
█
Power
Power
Start
Power
Start
Start
Start
Reset
Elapsed
time Max
Reset
Reset
ResetStart
Reset
Reset
Elapsed
Elapsed
time
S.on1
time
Elapsed
time
Power
Start
output time
setting
Reset
█
• S.on1
OFF time at the same time as external START signal is applied
• Elapsed
When time-up, OUT2 output turns on and the timing value
Power
Power
time
is initialized
Continuously time clock
Power
• Start
After
external START signal is applied, OUT2 output ON / OFF
Start
Power
OUT2
operation
repeat
Start
(OUT) output is one-shot, OUT2 output after OUT2 output setting time OFF
•Reset
IfReset
OUT2
Max
Reset
OUT1 revelation
• Initialize
value and output at reset input
Value
BAT.
Elapsed
ElapsedRESET
time
time
Elapsed
Batch
time settings
OUT2
Signal START - Flicker - R
S.F-r
OUT2
(OUT)
OUT1
Batch output
OUT1
Power
Start
Reset
Power
S.F-r
Start
Elapsed
Power
Power
time
Reset
Start
OUT2 Max
BAT.Value
(OUT)
Reset
RESET
Elapsed
OUT1
time
Batch
settings
Elapsed
•
Time reveals as the external signal is permitted
time
• OUT2 output ON at time-up and keep time value
• Timing value initialization and OUT2 output OFF after OUT2 output setting time
OUT2
Batch
output
S.F-p
•
After
the external START signal is applied, the time counting and OUT2 output
(OUT)
ON Power
/ OFF operation are repeated according to the SET2 setting time
Power
OUT1 value and output initialization at reset input
•Power
Reset
Start Start
Start
ResetReset
Reset Max
Elapsed
OUT2
Elapsed
time
(OUT)
Elapsed
time time
OUT1
Power
OUT2
(OUT)
Start
OUT1
Reset
Power
S.F-q
• Time reveals as the external signal is permitted
Start
•
OUT2 output ON at time-up and continual revelation
Elapsed
Power
•
Timing value initialization and OUT2 output OFF after OUT2 output setting time
time
Power
Reset
S.dut
Power
• After
the external START signal is applied, the time counting and OUT2
Start Max
Start
output
ON / OFF operation are repeated according to the SET2 setting time
Value
OUT2
Start
(OUT)
Elapsed
•Reset
Reset value and output initialization at reset input
Reset
Power
OUT1 Resettime
Start
Elapsed
Elapsed
timeElapsedReset
time
time
Twin timer output action
OUT2 █
S.OND
(OUT)
OUT1
Power
Start
Reset
Reset
█
Power RUN - OFF delay
Power
Power
Start
Start
Start OUT1
OUT2
(OUT)
Reset OUT2
OUT1
Reset
Reset
Elapsed
Elapsed
Power
time
time
Start
OUT2
ResetOUT2
OUT1
OUT1
Elapsed
• When power is applied, OUT1 and OUT2 outputs are ON and ON time (SET1)
time
• OUT1 and OUT2 output is OFF when ON time (SET1) time-up and
OFF time (SET2) after timing value is initialized
OUT1
• Power
OFF time (SET2) OUT1 and OUT2 output are ON when time-up and ON time (SET1)
• After power-on, the OUT1 and OUT2 outputs turn ON / OFF
OUT2
Start according to the set time of SET1 and SET2
repeatedly
• Reset value and output initialization at reset input
Reset
Elapsed
Power
time
Start
Power
OUT2
S.F-q
Reset
(OUT)
Start
OUT1
Power
Reset
Elapsed
Startreveals as the external signal is permitted
• Time
time
• OUT2 output ON at time-up and initialization of timing value
Reset
Elapsed
(However, the display value is maintained)
OUT2
S.F-q
time value display and OUT2 output after OUT2 output set time
• Timing
OUT1
•
After the external START signal is applied, the time counting and
Elapsed
Power
OUT2
output ON / OFF operation are repeated according to the SET2
time
OUT1
setting
Start time
OUT2value and output initialization at reset input
• OUT2
Reset
(OUT)
Reset
Elapsed
time
OUT1
Elapsed
time
OUT2
OUT2
S.dut
(OUT)
OUT1
OUT1
7
OUT2
(OUT)
OUT1
S.F-
Powe
Sta
Rese
Elapse
tim
OUT2
(OUT)
OUT1
S.d
OUT1
Power
Start BAT.
Power
Start
OUT2 RESET
OUT2
Reset
Start
Reset
OUT1BatchOUT1
settings
Reset Max
Elapsed
Value
OFF time (SET1) at power on
time •Elapsed
• OFF time (SET1) OUT1 and OUT2 output are ON when time-up
Batch outputtime
ratio(%)
Elapsed
and ON time
(SET2)
time
OUT2
• ON time (SET2) OUT1 and OUT2 output is OFF when time-up and OFF
OUT2
time
(OUT)(SET1)
OUT1
OUT2power-on, the OUT1 and OUT2 outputs turn ON / OFF
• After
repeatedly
according to the set time of SET1 and SET2
OUT1
OUT1
• Reset value and output initialization at reset input
Elapsed
Elapsed
time time
Power
time
Start
RUN - ON delay
S.dut
S.OND
ElapsedPower
Elapsed
time
Power
time
Value
█ S.F-p
Signal
START - Flicker - P
Elapsed
Power
Max
Value
OUT2 Power
Elapsed
(OUT)
time ratio(%)
OUT1
Power
OUT2
Start
(OUT)
Rese
Elapse
tim
Value
HOLD setting
Sta
Powe
Sta
Rese
Elapse
tim
OUT2
(OUT)
OUT1
Powe
Sta
Rese
Elapse
tim
OUT2
OUT1
Powe
Star
Rese
Elapse
tim
OUT2
OUT1
ResetReset
Power
Reset
Start
Max
Value
Timer
action of exclusive indication(GE-T)
time
S.OND
PowerSTART - ON delay
Reset
█ Elapsed
Signal
time
Start
Reset
Elapsed
Power Max
Start
Elapsed
S.F-q
time
Reset
HOLD setting
output time
setting
Reset
PowerPower
Reset
Power
time
RESET
Elapsed
time ratio(%)
OUT2 settings
Batch
Max
Value
OUT2 OUT1
(OUT)
Start
Elapsed
time
Reset
OUT1
Elapsed
OUT2
time
OUT1
OUT2
Batch output
O
█ Deployment Counter and Batch Timer Behavior
•The batch count value is increased during OUT2 (OUT) output operation.
•Batch output (BAT.O) is activated when the batch count value is greater than
Power
the batch setting value.
•Batch
key in
Start factor values and batch output are initialized by pressing the front
batch display mode or by applying a signal to the external BAT.RESET terminal.
Reset
•Even in batch display mode, counting and counting operations continue to operate.
•If the batch count value is more than '999999 (4th row: 9999)', it is initialized to '0' and
counted.
Elapsed
time
█ Instant output setup
•When
OUT2 batch setting value is set to '0', batch output (BAT.O) is operated as
instantaneous output. (BAT.O LED lights)
OUT1 Power
Power
█ Batch
StartCounter setup Method
Start
1. Press the
key to switch to batch display mode.
Resetuse the
(In GE4N,
key to switch to batch display mode)
2. In batch display mode, use the
/
keys to set the batch setting to '100'.
(If you want to set the batch setting value to '100')
Power
Elapsed
Start time
3. When you have finished entering the batch setting values, press the
key to save the
changed batch setting values.
Reset
OUT1
Reset
Elapsed
time
OUT2
OUT1
• When power is applied, OUT1 output is ON and OUT1 ON time (SET1)
• OUT1 ON time (SET1) OUT1 output is OFF when time-up and idle time (t)
• OUT2 output is turned on after the dwell time (t),
and the measured value is OUT2 ON (SET2)
• OUT2 ON time (SET2) OUT2 output is OFF when time-up and idle time (t)
• After power-on, SET1 and SET2, t OUT1 and OUT2 output turn
ON / OFF repeatedly according to set time
• Reset value and output initialization at reset input
• t : down time (
)
Elapsed
time
OUT2
[BATCH
S
Po
S
Re
Elap
OU
(O
OUT1
Power
OUT2
Power
OUT2
Max
Elapsed
Value
BAT.
OUT1
Power RUN - OFF time
OUT1
Power
Power
Reset
Reset
• Output of OUT1 and OUT2 is ON when an external START signal is
applied and ON time (SET1)
• OUT1 and
OUT2 output is OFF when ON time (SET1) time-up and
Power
OFF time (SET2) after timing value is initialized
Start
• OFF time (SET2) OUT1 and OUT2 output are ON when time-up and
ON time Reset
(SET1)
• After external START
is applied, OUT1 and OUT2 outputs are ON /
Max
Value
OFF repeatedly according
to SET1 and SET2 set time
Elapsed
• Reset value
and output initialization at reset input
time
Elapsed
time
Re
O
(O
Start
Elapsed
Start time
OUT1
Reset
S
Elap
Batch counter / Batch timer
Batch output
Start
RUN
• Runs when turning ON the START (CP2) and Resets when turning OFF the START (CP2).
S.dut
Start
• Start
Starts to decrease from the set time when Down Mode is being setup.
Power
BAT.
RESET Start
█
Batch output
Start
time
OUT1
Elapsed
time
O
BAT.
RESET
Max
Start
Elapsed
Reset
OUT2 time
Reset
(OUT)
Max
OUT1 ElapsedValue
time
Elapsed
Reset
OUT2
O
(O
Batch settings
PowerSignal
Reset
Elapsed
Start Max
timePower Value
█
Signal START - OFF delay
Elapsed Reset
Batch
timesettings
Re
Power
Value
Batch output
• In case of when Power is ON, supplying in the RUN RESET signal will initialize the
S
Elapsed
Batch settings
Startindicating
value and setting up the RUN Down mode will start to decrease the value
time
from the set value.
Power
Po
Reset
OUT2
Power
Power
Start
S
Elap
BAT.
RESET
Power
timeValue
time
Po
Power
OUT1 Reset
Power
OUT2
Power
Start
OUT1
Start
Reset
• OFF timePower
(SET1) at the same time as external START signal is applied
Reset
• OFF time (SET1) OUT1 and OUT2 output are ON when time-up and
Start
ON time (SET2) after timer value initialization
Elapsed
•Elapsed
ONtime
time Reset
(SET2) OUT1 and OUT2 output is OFF when time-up and
time
OFF
time (SET1) Max
Value
• After
OUT2the external START signal is applied, the OUT1 and OUT2 outputs
turn ONElapsed
/ OFF repeatedly according to the set time of SET1 and SET2
time
OUT1 value and output initialization at reset input
• Reset
█
Power RUN
Start
Power
OUT1
Reset
OUT1 Elapsed
Elapsed
time
OUT2
(OUT)
Reset
Elapsed
time
Power
█
OUT2
Start
ratio(%)
Power
Elapsed
OUT2
Start
time
(OUT)
Reset
Max
OUT2 Value
Elapsed
Elapsed
time
OUT1
switching example of 2-step setting type]
O
Po
S
Re
Elap
OU
OU
Po
S
Re
Elap
OUT2
OUT1
OU
OU
8
Communication configuration
RS232C
COMMAND
Termination
resistance
120 Ω
TX
RX
GND
CV300 Converter
(RS232↔RS485)
Termination
resistance
120 Ω
A+
BB- A+
B- A+
1. Funt 01H (Read Coil Status)
Query (Master)
GE #31
Slave Addr
Func
1byte
1byte
Start Addr
High
Low
1byte
1byte
No. of Points
High
Low
1byte
1byte
CRC16
Low
1byte
High
1byte
Response (Slave)
GE #1
GE #2
● The communication cable uses twisted-pair cable to connect several GEs.
● Twisted-pair cable is connected between GE by Daisy chain method, and terminal is
treated with resistance of 120 Ω at both ends by communication line.
● Set GE communication parameter setting values to be the same as Master.
(Be careful that the station number is not set as duplicate)
● The maximum number of GE connections is 31 units.
Master
GE 3
Data Byte
Count
Data
1byte
1byte
1byte
1byte
CRC16
Low
1byte
High
1byte
Query (Master)
● Modbus communication starts by sending a query from the master to the counter.
● The counter monitors the query and sends a response to the master when the station
number is confirmed.
GE 2
Func
※ Example of using Funtion 01H
(Current status of GE station number 01: RST KEY = OFF, BAT RST KEY = OFF, OUT1 = ON,
OUT2 = ON, BOUT = OFF)
Communication control method
GE 1
Slave Addr
Slave Addr
Func
01
01
Start Addr
High
Low
00
00
No. of Points
High
Low
00
05
CRC16
Low
FC
High
09
Response (Slave)
GE 31
Slave Addr
Func
Data Byte
Count
Data
01
01
01
0C
CRC16
Low
51
High
8D
2. Funt 02H (Read Input Status)
Query
Query (Master)
Response
1. Query
Query (Master)
dialing
Command
Start address
Number of data
GE dialing (1~127)
Funtion Code (01H~06H, 10H)
Start address of the register to request for transfer
Number of data to send
Checksum from station number to the number of data
Command
Number of data
data
GE dialing (1~127)
Requested function code (01H~06H, 10H)
Number of data to transfer
Data to transfer
Checksum from station number to the number of data
Designation
Setting contents
1
Communication
station number
Communication
speed
Communication
parity bit
Communication
response wait
time
Communication
write prohibited
Communication speed
2400 bps
4800 bps
9600 bps
19200 bps
38400 bps
none
High
1byte
Slave Addr
Func
Data Byte
Count
Data
1byte
1byte
1byte
1byte
CRC16
Low
1byte
High
1byte
Slave Addr
Func
01
02
Start Addr
High
Low
00
00
No. of Points
High
Low
00
05
CRC16
Low
B8
High
09
Slave Addr
Func
Data Byte
Count
Data
01
02
01
01
CRC16
Low
60
High
48
3. Funt 03H (Read Holding Registers)
Query (Master)
Slave Addr
Func
1byte
1byte
Start Addr
High
Low
1byte
1byte
No. of Points
High
Low
1byte
1byte
CRC16
Low
1byte
High
1byte
Response (Slave)
Initial
value
Slave Addr
Func
Data Byte
Count
1byte
1byte
1byte
Data (n = 1~16)
High
Low
n-byte
n-byte
CRC16
Low
1byte
High
1byte
127
•When using the same station number in GE
for multi-communication, communication error
occurs.
•The number of units that can be connected
in multi communication is 31 units.
2400
Display condition
CRC16
Low
1byte
Response (Slave)
CRC16
Communication function setting mode
Sign
1byte
No. of Points
High
Low
1byte
1byte
Query (Master)
CRC16
dialing
Command
Number of data
data
CRC16
1byte
Start Addr
High
Low
1byte
1byte
※ Example of using Funtion 02H
(Current status of GE station number 01 : OUT RST = ON, OUT BRST = OFF, CP1 = OFF, CP2 = OFF)
2. Response
Response (counter)
dialing
Func
Response (Slave)
CRC16
CRC16
dialing
Command
Start address
Number of data
CRC16
Slave Addr
4800
9600
19200
38400
even number odd number
5 ms
99 ms
OFF
ON
•If communication write protection is set to ON,
data cannot be set by communication
Communication
model
4. Funt 04H (Read Input Registers)
Query (Master)
Communication
model
Slave Addr
Func
1byte
1byte
Start Addr
High
Low
1byte
1byte
No. of Points
High
Low
1byte
1byte
CRC16
Low
1byte
High
1byte
Response (Slave)
Communication
model
Communication
model
Slave Addr
Func
Data Byte
Count
1byte
1byte
1byte
Data (n = 1~13)
High
Low
n-byte
n-byte
CRC16
Low
1byte
High
1byte
5. Funt 05H (Force Single Coil)
Communication
model
Query (Master)
Communication response wait time setting range
16 ms ~ 99 ms
8 ms ~ 99 ms
5 ms ~ 99 ms
5 ms ~ 99 ms
5 ms ~ 99 ms
Slave Addr
Func
1byte
1byte
Coil Addr
High
Low
1byte
1byte
Force Data
High
Low
1byte
1byte
Low
1byte
CRC16
Coil Addr
High
Low
1byte
1byte
Force Data
High
Low
1byte
1byte
Low
1byte
High
1byte
Response (Slave)
9
Slave Addr
Func
1byte
1byte
CRC16
High
1byte
6. Funt 06H (Preset Single Register)
ADDR
Query (Master)
Slave Addr
Func
1byte
1byte
Register Addr
High
Low
1byte
1byte
Preset Data
High
Low
1byte
1byte
Slave Addr
Func
1byte
1byte
Preset Data
High
Low
1byte
1byte
Low
1byte
High
1byte
Low
1byte
1byte
1byte
04
LED display
status
31002 (03E9)
~ 31003 (03EA)
04
Batch PV
31004 (03EB)
~ 31005 (03EC)
04
PV
31006 (03ED)
04
Dot Point
31007 (03EE)
~ 31008 (03EF)
04
SV2
31009 (03F0)
~ 31010 (03F1)
04
SV1
CRC16
Start Addr No. of Register Data Byte Data (n = 1~16)
Count
High Low High Low
High
Low
Low
High
1byte 1byte 1byte 1byte
1byte n-byte n-byte 1byte 1byte
Response (Slave)
Slave Addr
Func
1byte
1byte
Start Addr
High
Low
1byte
1byte
No. of Register
High
Low
1byte
1byte
CRC16
Low
1byte
High
1byte
※ Exception (Exception code transmission in case of communication error)
Response (Slave)
CRC16
Slave Addr
Func + 80H
Exception code
Low
High
1byte
1byte
1byte
1byte
1byte
Exception
1
Description
Unsupported Commands
If the start address of the requested data is inconsistent with the address that
can be transferred from the device
If the number of requested data is inconsistent with the number that can be
transmitted by the device
If the requested command cannot be processed normally
2
3
4
※ Exception example (when Start Addr of requested data is error)
Query (Master)
Slave Addr
Func
01
03
Start Addr
High
Low
00
95
No. of Points
High
Low
00
07
CRC16
Low
14
High
24
Response (Slave)
Slave Addr
Func + 80H
Exception code
01
83
02
CRC16
Low
C0
High
F1
MAPPING TABLE
1. Func 01H/05H Mapping Table (output status / reset)
ADDR
00001 (0000)
00002 (0001)
00003 (0002)
00004 (0003)
00005 (0004)
FUNC
01/05
01/05
01
01
01
Output status / reset
function
RESET input
BATCH RESET input
OUT1 input
OUT2 input
BATCH input
setting range
0 (off), 1 (on)
0 (off), 1 (on)
0 (off), 1 (on)
0 (off), 1 (on)
0 (off), 1 (on)
remarks
31011 (03F2)
~ 31012 (03F3)
31013 (03F4)
2. Func 02H Mapping Table (input status)
ADDR
10001 (0000)
10002 (0001)
10003 (0002)
10004 (0003)
10005 (0004)
FUNC
02
02
02
02
02
Input status
function
RESET terminal input
BATCH RESET terminal input
CP1 input
CP2 input
RESERVED
setting range
0 (off), 1 (on)
0 (off), 1 (on)
0 (off), 1 (on)
0 (off), 1 (on)
20H
remarks
3. Func 04H Mapping Table (product information / product monitoring)
ADDR
30101 (0064)
30102 (0065)
30103 (0066)
30104 (0067)
30105 (0068)
30106 (0069)
30107 (006A)
30108 (006B)
FUNC
04
04
04
04
04
04
04
04
Product information
function
product no. Low
product no. High
hardware Version
firmware Version
model name
RESERVED
RESERVED
RESERVED
0 (off), 1 (on)
High
1byte
Query (Master)
Func
31001 (03E8)
CRC16
7. Funt 10H (Preset Multiple Registers)
Slave
Addr
product monitoring
Function
Setting range
CRC16
Response (Slave)
Register Addr
High
Low
1byte
1byte
FUNC
setting range
0
0
0
0
"GE"
20H
20H
20H
remarks
10
04
Batch SV
04
input logic
0 ~ 999999
0 ~ 9999
※ counter
6rows (-99999 ~ 999999)
4rows (-999 ~ 9999)
※ timer
: 0 ~ 999999 / 0 ~ 9999
: 0 ~ 595999 / 0 ~ 5999
: 0 ~ 959599 / 0 ~ 9599
: 0 ~ 995959 / 0 ~ 5959
: 0 ~ 999959 / 0 ~ 9959
: 0 ~ 999923 / 0 ~ 9923
※ counter
0 (000000 / 0000)
1 (00000.0 / 000.0)
2 (0000.00 / 00.00)
3 (000.000 / 0.000)
4 (00.0000 / x)
5 (0.00000 / x)
※ Timer
0 (u.01s)
1 (u.1s)
2 (u1s)
3 (u1m)
4 (u1h)
5 (d.01s)
6 (d.1s)
7 (d1s)
8 (d1m)
9 (d1h)
※ counter
: 0 ~ 999999 / 0 ~ 9999
※ timer
: 0 ~ 999999 / 0 ~ 9999
: 0 ~ 595999 / 0 ~ 5999
: 0 ~ 959599 / 0 ~ 9599
: 0 ~ 995959 / 0 ~ 5959
: 0 ~ 999959 / 0 ~ 9959
: 0 ~ 999923 / 0 ~ 9923
※ counter
: 0 ~ 999999 / 0 ~ 9999
※ timer
: 0 ~ 999999 / 0 ~ 9999
: 0 ~ 595999 / 0 ~ 5999
: 0 ~ 959599 / 0 ~ 9599
: 0 ~ 995959 / 0 ~ 5959
: 0 ~ 999959 / 0 ~ 9959
: 0 ~ 999923 / 0 ~ 9923
0 ~ 999999
0 ~ 9999
0 (NPN), 1 (PNP)
Remarks
•bit15 (Counter LED)
•bit14 (Timer LED)
•bit13 (Set2 LED)
•bit12 (Set1 LED)
•bit11 (Lock LED)
•bit10 (Batch LED)
•bit09 (Out1 LED)
•bit08 (Out2 LED)
•bit07 (Batch Out LED)
4. Func 03H/06H/10H Mapping Table (SV set / Counter setting / Timer setting / Communication settings)
Timer setting
SV set
ADDR
FUNC
function
40001 (0000)
03/06/16
SV2
40002 (0001)
40003 (0002)
03/06/16
SV1
40004 (0003)
40005 (0004)
40006 (0005)
03/06/16
Batch SV
ADDR
setting range
※ counter (6rows/4rows)
: 0 ~ 999999 / 0 ~ 9999
※ Timer (6rows/4rows)
: 0 ~ 999999 / 0 ~ 9999
: 0 ~ 595999 / 0 ~ 5999
: 0 ~ 959599 / 0 ~ 9599
: 0 ~ 995959 / 0 ~ 5959
: 0 ~ 999959 / 0 ~ 9959
: 0 ~ 999923 / 0 ~ 9923
※ counter (6rows/4rows)
: 0 ~ 999999 / 0 ~ 9999
※ Timer (6rows/4rows)
: 0 ~ 999999 / 0 ~ 9999
: 0 ~ 595999 / 0 ~ 5999
: 0 ~ 959599 / 0 ~ 9599
: 0 ~ 995959 / 0 ~ 5959
: 0 ~ 999959 / 0 ~ 9959
: 0 ~ 999923 / 0 ~ 9923
※ 6rows : 0 ~ 999999
※ 4rows : 0 ~ 9999
FUNC
remarks
40101 (0064) 03/06/16
SV2 low
SV2 high
40102 (0065) 03/06/16
SV1 low
40103 (0066) 03/06/16
SV1 high
Batch SV low
Batch SV high
Counter setting
ADDR
FUNC
Function
40051 (0032)
03/06/16
operation mode
40052 (0033)
03/06/16
input mode
40053 (0034)
40054 (0035)
40055 (0036)
03/06/16
RESERVED
Setting range
Remarks
0 (counter)
1 (batch counter)
2 (timer)
3 (twin timer)
4 (batch timer)
0 (U-A)
1 (U-B)
2 (U-AB)
3 (D-A)
4 (D-B)
5 (D-AB)
6 (UD-A)
7 (UD-B)
8 (UD-C)
9 (UD-D)
A (UD-E)
B (UD-F)
40104 (0067) 03/06/16
40105 (0068)
40106 (0069)
20H
0 (N)
1 (F)
2 (C)
3 (R)
03/06/16
output mode
4 (K)
5 (P)
6 (Q)
7 (A)
0 (01)
maximum counting 1 (30)
03/06/16
speed
2 (1K)
3 (10K)
Hold ~ 99.99 ms
40061 (003C)
03/06/16
40062 (003D)
03/06/16
40063 (003E)
03/06/16
40064 (003F)
03/06/16
40065 (0040)
03/06/16
40066 (0041)
03/06/16
Prescale
RESERVED
Backup
Lock
40109 (006C) 03/06/16
40116 (0073)
20H
0 (1ms), 1 (20ms)
RESERVED
20H
03/06/16
03/06/16
Backup
0 (clear), 1 (save)
0 (Lock-off)
1 (Lock-on)
2 (Lock-set)
3 (Lock-rst)
Lock
Communication settings
0 (000000 / 0000)
1 (00000.0 / 000.0)
2 (0000.00 / 00.00)
3 (000.000 / 0.000)
4 (00.0000 / x)
5 (0.00000 / x)
40060 (003B)
RESERVED
minimum input
signal time
40114 (0071)
0 ms ~ 99.99 ms
1 (00000.0 / 000.0)
2 (0000.00 / 00.00)
03/06/16 Prescale Dot Point 3 (000.000 / 0.000)
4 (00.0000 / x)
5 (0.00000 / x)
40108 (006B) 03/06/16
40115 (0072)
OUT1 output time 0000 ~ 9999
03/06/16
20H
40113 (0070)
OUT2 output time 0000 ~ 9999
40059 (003A)
RESERVED
40111 (006E)
03/06/16
minimum input
signal time
03/06/16
40112 (006F) 03/06/16
03/06/16
Dot Point
Remarks
40110 (006D)
40056 (0037)
03/06/16
Setting range
0 (counter)
1 (batch counter)
operation mode 2 (timer)
3 (twin timer)
4 (batch timer)
0 (u.01s)
1 (u.1s)
2 (u1s)
3 (u1m)
4 (u1h)
Range
5 (d.01s)
6 (d.1s)
7 (d1s)
8 (d1m)
9 (d1h)
0 (Decimal notation),
Scale
1 (sexagesimal notation)
※ Timer
00 (pond)
01 (sond)
02 (sofd)
03 (sint)
04 (sadd)
05 (s.ond)
06 (s.on1)
07 (s.int)
output mode 08 (s.flk)
09 (s.fr)
0A (s.fp)
0B (s.fq)
※ Twin timer
0C (tw-pond)
0D (tw-pofd)
0E (tw-poft)
0F (tw-s.ond)
10 (tw-s.ofd)
40107 (006A) 03/06/16 OUT output time 0000 (Hold) ~ 9999 (99.99ms)
40057 (0038)
40058 (0039)
function
ADDR
FUNC
Function
40151 (0096)
03/06/16
ADDR
40152 (0097)
03/06/16
BPS
40153 (0098)
03/06/16
Parity
40154 (0099)
03/06/16
0 (1ms), FFh (20ms)
0.00001 ~ 999999
0.001 ~ 9999
20H
0 (clear), 1 (save)
0 (Lock-off)
1 (Lock-on)
2 (Lock-set)
3 (Lock-reset)
11
40155 (009A)
03/06/16
40156 (009B)
03/06/16
Stop
Setting range
Remarks
1 ~ 7F
0 (2400)
1 (4800)
2 (9600)
3 (19200)
4 (38400)
0 (none)
1 (odd)
2 (even)
0 (1-stop)
response waiting
5 ~ 99 (5 ms ~ 99 ms)
time
communication
0 (off), FFh (on)
write prohibited
Fix
Dimension and panel cutout
[Unit:㎜]
█ GE7N
●Dimension
●Panel cutout
92.0
72.0
5.0
72.0
15.0
68.0
82.0
67.0
72.0
82.0
68.0
█ GE4N
●Dimension
●Panel cutout
15.0
60.0
60.0
44.8
48.0
5.0
45.0
48.0
84.3
64.3
45.0
█ GE6N
●Dimension
●Panel cutout
30.5
36.0
32.0
97.0
15.0
57.0
5.0
72.0
86.0
66.0
66.5
█ GE3N
●Dimension
●Panel cutout
44.8
12
120.0 more than
45.0
89.6
48.0
5.0
60.0 more than
107.6
96.0
91.0
Connection diagram
█ GE4N-P42/P62
█ GE4N-P41/P61
█ GE4N-T6
█ GE4N-P42M/P62M
█ GE4N-P41M/P61M
█ GE4N-T6M
█ GE6N-P42/P62
█ GE6N-P41/P61
█ GE6N-T6
█ GE6N-P42M/P62M
█ GE6N-P41M/P61M
█ GE6N-T6M
13
█ GE3N-P62
█ GE3N-P61
█ GE3N-T6
█ GE3N-P62M
█ GE3N-P61M
█ GE3N-T6M
█ GE7N-P62
█ GE7N-P61
█ GE7N-T6
█ GE7N-P62M
█ GE7N-P61M
█ GE7N-T6M
14
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