4
Features of Intelligent Flag/Intelligent Flag II
Upgrade Production Lines with Surprising Ease
1. Easy to Use Like a Sensor
Simply operate the Amplifier switches to select the
mode and to set transmission settings. Program-
ming is not necessary as was the case with con-
ventional ID models.
2. No Need to be Concerned About Mechanical
Troubles or Component Life
Flag codes can be overwritten through wireless
transmission, which is unique to the ID System. No
need to be concerned about mechanical troubles
or component life because there are no mechani-
cal parts like cylinders which are provided for older
mechanical flags.
3. Precise Installation Not Required
With the long transmission distance of 65 mm
max., accurate positioning as required for older
sensors is not necessary. Furthermore, there is no
need to be concerned about mutual interference
during installation.
4. Minimal Investment for High-level Line Construc-
tion
Previously, it was necessary to make as many me-
chanical flags as the number of models (for exam-
ple: 256 flags for 256 models). With the Intelligent
Flags, however, one Data Carrier can distinguish
256 types.
Type Flags Sensors
Mechanical Flags 256 pieces 8 pieces
Intelligent Flags 1 piece 1 piece
5. Saves Space
A single R/W Head of the Intelligent Flag is equiva-
lent to eight sensors and that of the Intelligent Flag
II is equivalent to sixteen sensors. Accordingly, the
space required for flags is largely reduced due to
the use of a single Data Carrier.
6. Wide Variation
The optimum Data Carrier can be selected out of
the V600-series Data Carriers depending on the
application. Besides which, the Intelligent Flag can
be connected to an existing line where V600-se-
ries Data Carriers can be used.
7. Provided with a Verification Function
The Intelligent Flag is provided with a verification
function that is designed to collate the data read
from the Data Carrier with the preset data. With
this function, the Intelligent Flag can be easily used
for various applications such as automatic line
switching or an ID room access control system.
8. Communications Control with Only an Input Unit,
Such as One From a Programmable Controller
The Intelligent Flag II saves wiring effort and
makes it possible with a 16-point Input Unit, such
as one from a Programmable Controller, to per-
form the communications control of the Intelligent
Flag II.
9. Highly Reliable Data Communications
Highly reliable data communications are ensured
with the parity-check output of the Intelligent
Flag II, which includes parity-check results of
16-bit data to easily check for the disconnection
and incorrect connection of the communications
line and noise interference during communica-
tions.
5
Technical Guide
Intelligent Flag II Has More Advanced Functions
Output Used Like Sensor Output
The conventional Intelligent Flag reads data from the Data Carrier and outputs the data for a time that can be set to
10 ms, 50 ms, or continuous, the period of which may be less than the period the Data Carrier is within the trans-
mission area. The Intelligent Flag II reads data from the Data Carrier and outputs the data for the whole period the
Data Carrier is within the transmission area plus the output OFF-delay time that can be set to 10 ms, 50 ms, or
500 ms.
Position of
Data Carrier
Normal output of
Intelligent Flag
ON
OFF
Normal output of
Intelligent Flag II
ON
OFF
Outside trans-
mission area Within transmission
area
Outside trans-
mission area
Outside trans-
mission area
Data output timeData output time
t1 m sec t1 m sec
t2 ms
OFF-delay time
t2 ms
OFF-delay time
Within transmis-
sion area
Wiring Saving Mode
The Intelligent Flag II has 19 output lines, which are
an error output line, strobe output line, parity-check
output line, and 16 data output lines, and also has two
output modes. The Intelligent Flag II in mode 2 saves
wiring man-hours and makes it possible for a single In-
put Unit, such as one from a Programmable Control-
ler, to perform the 16-bit communications control of
the Intelligent Flag II unless all 16 bits are set to 0 or 1.
Parity-check Output
The parity-check output line of the Intelligent Flag II
makes it possible to easily check for the disconnection
and incorrect connection of the line between the Intel-
ligent Flag II and Input Unit and noise interference
during communications.
The parity-check output of the Intelligent Flag II will be
OFF if the number of its data output lines turned ON is
even and ON if the number of its data output lines
turned ON is odd.
6
The construction of an advanced line and system is possible with the Intelligent Flag or Intelligent Flag II at a mini-
mal cost. The following are typical application examples, each in which the Intelligent Flag or Intelligent Flag II is
used.
8-bit Intelligent Flag
Ideal for a Wide Variety of Applications
Product Distinction
The system is designed to distinguish different prod-
ucts by reading their codes. With the V600-HAR91,
the read data is output in parallel for easy distinc-
tion. The V600-HAM91 allows the data to be over-
written freely and can easily cope with changes in
product types. When used in combination with the
Programmable Controller and a display, the system
facilitates on-site line distribution or status confirma-
tion.
V600-D23P71
Data Carrier
V600-HS63
Sensor
Hanger
V600-HAR91 Amplifier
CQM1 NT20S
LIne
control
Production Process Control
The system is designed to read product codes and
Process Completion Flags from the Data Carrier in
order to check each process and perform the desig-
nated tasks. When the tasks in the process are
completed, the Process Completion Flag is turned
ON (writing “1”). The V600-HAM91 allows overwrit-
ing of each bit with an independent meaning as-
signed to each one of the 8 bits.
Process C
Process B
V600-HS63
Sensor
NT600
CQM1 V600-HAM91 Amplifier
V600-D23P61
Data Carrier
Process D
Data Carrier Memory
Address
00XX
Type code Process E
Process D
Process C
Process B
Process A
Process Completion Flag
Bit
0
Room Access Control
It is costly and takes up much space to provide a
personal computer control system that unlocks the
door only for those with a special registered code.
room access control can be realized more easily
and at a lower cost by forming a system in which
the V600-HAM91 is connected to a compact Pro-
grammable Controller or sensor controller. The veri-
fication function, if used in the system, will allow
easy distinction between the preset code registered
on the door side and the code registered on the
Data Carrier carried by the DC holders, resulting in
a more simplified system configuration.
V600-D23P71
Data Carrier
Reading the code V600-HS63
Sensor
V600-HAM91
Matching
the output S3D2
S Compact PC
S Sensor Controller
Lock control
(ON/OFF)
7
16-bit Intelligent Flag
Product Distinction with Electronic Kanban
The V600-HAR92 reads each product code to display
it in alphanumeric characters within four characters on
the Display Unit as an electronic Kanban, thus reduc-
ing the number of paper sheets used for production
process control and careless mistakes.
Reading the type code
(Kanban data)
M7E
Display of type
code (electronic
Kanban)
V600-HS63 Sensor V600-D23P66
Data Carrier
V600-HAR92
Amplifier
Product Quality Control for Conforming to ISO
and GMP Requirements and in Consideration of
Product Liability
The V600-HAR92 handles the product codes, product
inspection data, and production process data of a vari-
ety of products, thus making it possible to manufac-
ture the products efficiently while referring to the prod-
uct inspection data and ensuring improvements in
product quality control.
Two
V600-HAM91
Amplifiers
V600-D23P61
Data Carrier
Complex inspection unit
Writing the
inspection
results
Reading the type code
V600-HAR92
Amplifier
V600-HS63
Sensor
Distinction of Different Products
The V600-HAR92 in mode 2 saves wiring effort and
makes it possible for a 16-point Input Unit to perform
the 16-input communications control of the
V600-HAR92 via a Unit saving wiring, and is ideal for
the distinction of the different products on a belt con-
veyor line.
Programmable Controller
Wiring-saving device:
16-point B7A Link Terminals
V600-HAR92
Amplifier
V600-HS63
Sensor
V600-D23P71 Data Carrier and
V600-A84 Dedicated Folder
8
16-bit Intelligent Flag II and 8-bit Intelligent Flag are Ideal for a Greater
Variety of Applications
Products and Main Functions
Products
OMRON’s V600-series ID
System Intelligent Flags
8-bit Intelligent Flag 16-bit Intelligent Flag II
8-bit Amplifier for
Read Data Output:
V600-HAR91/-HAR81
8-bit Amplifier with
Versatile Functions:
V600-HAM91/-HAM81
16-bit Amplifier for
Read Data Output:
V600-HAR92
Main Functions
Functions V600-HAR91/-HAR81 V600-HAM91/-HAM81 V600-HAR92
Data reading 8 bits Yes Yes (Yes)
g
16 bits Yes
Data writing 8 bits (1 byte), block Yes
g
1 bit (ON or OFF),
independent
Yes
Verification of read data with set data Yes
Parity-check code output Yes
Wiring saving mode Yes
Ideal Combinations
The construction of an advanced line and system is possible with the Intelligent Flag or Intelligent Flag II at a mini-
mal cost. The following lists the Intelligent Flag or Intelligent Flag II that will operate the most efficiently for a given
application.
9
List of Application Examples
Application Data Process Model Page
pp
V600-
HAR91/
-HAR81
V600-
HAM91/
-HAM81
V600-
HAR92
General-
purpose
ID system
g
Product
di i i
256 types/8 bits max. Writing of product data Yes (Yes)* 11
distinction
yp
Reading of product data Yes
257 types/9 bits min. Writing of product data (Yes)
Two
Units
Yes
Reading of product data Yes
Kanban Alphanumeric characters
3 4 di i (12 16 bi )
Writing of Kanban data Yes 12
p
3 to 4 digits (12 to 16 bits) Reading of Kanban
data
Yes
Product
distinction
and
production
A total of 8 bits max.
Example:
Distinction of 16 types of
products/4 bits max.
Pd i l
Writing of product data
and resetting of
production process
control data
Yes (Yes)* 14
p
process
control
p
Production process control
of 4 processes/4 bits max
Reading of product data Yes (Yes)
contro
l
o
f
4
processes
/4
bi
ts max. Writing of production
Process Completion
Flag
Yes
Reading of all data
(product data and
production process
control data)
Yes
A total of
16 bits max.
Example:
Distinction of
256 types of
products/
bi
Writing of product data
write and resetting of
production process
control data
Yes (Yes)* 15
p
8 bits max.
Production
Reading of product data Yes
P
ro
d
uct
i
on
process
control of
8
p
rocesses/
Writing of production
Process Completion
Flag
Yes
8
processes/
8 bits max. Reading of all data
(product data and
production process
control data)
Yes
Example:
Distinction of
128 types of
products/
bi
Writing of product data
and resetting of
production process
control data
Yes (Yes)* 16
p
7 bits max.
Production
Reading of product data Yes
P
ro
d
uct
i
on
process
control of
9
p
rocesses/
Writing of production
Process Completion
Flag
Yes
9
processes/
9 bits max. Reading of all data
(product data and
production process
control data)
Yes
10
Application PageModelProcessDataApplication Page
General-
purpose
ID system
V600-
HAR92
V600-
HAM91/
-HAM81
V600-
HAR91/
-HAR81
ProcessData
Product
distinction
and
dti
A total of 8 bits max.
Example:
Distinction of 8 types of
dt/3bit
Writing of product data
and resetting of product
quality control data
Yes (Yes)* 17
production
quality control
yp
products/3 bits max.
Product quality control of 5
Reading of product data Yes
qua
lit
y con
t
ro
l
P
ro
d
uc
t
qua
lit
y con
t
ro
l
o
f
5
processes/5 bits max. Writing of product
quality control data
(Accepted or Rejected)
Yes
Reading of all data
(product data and
product quality control
data)
Yes
A total of
16 bits max.
Example:
Distinction of
256 types of
dt/
Writing of product data
and resetting of product
quality control data
Yes (Yes)* 18
yp
products/
8 bits max
Reading of product data Yes
8
bit
s max.
Production
process
control of
Writing of product
quality control data
(Accepted or Rejected)
Yes
control
of
8 processes/
8 bits max.
Reading of all data
(product data and
product quality control
data)
Yes
Example:
Distinction of
128 types of
dt/
Writing of product data
and resetting product
quality control data
Yes (Yes)* 19
yp
products/
7 bits max
Reading of product data Yes
7
bit
s max.
Production
process
control of
Writing of product
quality control data
(Accepted or Rejected)
Yes
control
of
9 processes/
9 bits max.
Reading of all data
(product data and
product quality control
data)
Yes
Note: *When other data is written simultaneously.
11
Applications of Intelligent Flag or Intelligent Flag II
According to the Process
Product Distinction
Processes bit data.
Used as a mechanical flag.
Number of Product Types to Distinguish: 256 or Less
Example: 256 Types Example: 16 Types
Example: Address 0003H
8 bits used for product data 4 bits unused
8 bits used for product data 4 bits used for
product data
Example: Address 0003H
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
1. To write product data:
Use the V600-HAM91 and set the address to 0003H.
2. To read product data from each process:
Use the V600-HAR91. If the address is set to 0003H, 8 bits will be read.
Number of Product Types to Distinguish: 257 or More (64,000 max.)
Example: 1,024 Types
10 (8 + 2) bits are used for product
data area (1,024 types)
Example: Address 0021H
6 bits unused
Example: Address 0020H
First Unit
16th Unit
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
1. To write product data:
Use the conventional ID System or two V600-HAM91 Units. The address of each Unit must be unique (e.g., set
the address of a Unit to 0020H and the address of the other Unit to 0021H).
2. To read product data from each process:
Use the V600-HAR92. If the address is set to 0020H, the 16 bits of 0020H and 0021H will be read.
12
Product Distinction
Processes Kanban data in alphanumeric characters.
With a maximum of 4 digits (16 bits).
1. To write Kanban data: Use the conventional ID System.
Example: 000 to 999
0000 to FFFF
2. To read Kanban data: Use the V600-HAR92 and set the address to 0010H.
Example: Address 0011H Example: Address 0010H
M7E
To read and convert bit data to alphanumeric characters for display.
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
13
Utilization of Conventional ID System
The conventional ID System can be used with the Intelligent Flag II. The use of the ID System varies with the
proximity system or application.
•Host: Personal computer or Serial Interface Unit
with RS-232C or RS-422
Example: Serial Host Interface ID Controller
•No host
Example: IDSC-C1Dj-A ID Controller
V600-Hjj
V600-CD1D-V2 V600-Hjj V600-CA1A/CA2A PT IDSC
•Host: Programmable Controller
Example: Dedicated ID Sensor Unit
•On-site Operation with No Host
Example: Hand-held ID Controller
V600-CB-S Hand-
held ID Controller
V600-Hjj
C200H-IDS01-V1
V600-Hjj
•Example: Parallel Host Interface ID Controller
V600-Hjj
V600-CA8A/CA9A
14
Production Process Control
Production process control with bit data and product inspection data.
Used as a mechanical flag to distinguish products and will set a bit to 1
when a process is completed without error.
Application 1
No. of Product Types + No. of Processes: 8 Bits or Less
Example: 16 Product Types and
4 Processes
Example: 4 Product Types and
6 Processes
Example: Address 0005H
Completion of process 2
Completion of process 1
Product data area:
4 bits (16 types of
products max.)
Production process control
data area:
4 bits (4 processes max.)
Example: Address 0005H
Example: 4 types of products
and 6 processes Completion of process 2
Completion of process 1
Completion of process 3
Product data area:
2 bits (4 types of
products max.)
Production process control
data area:
6 bits (6 processes max.)
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
1. To write product data and reset product quality control data (set to 0):
Use V600-HAM91 Units and set the address of each Unit to 0005H.
2. To read product data from each process:
Use V600-HAR91 Units and set the address of each Unit to 0005H.
3. To read a Process Completion Flag from each completed process:
Use V600-HAR91 Units and set the address each Unit to 0005H.
A single V600-HAR91 can be used to read product data from each process and a Process Completion Flag
from each completed process if they are executed at the same station.
4. To write a Process Completion Flag to each completed process. (A single bit is written by the V600-HAM91 for
each process in bit set mode.):
Use V600-HAM91 Units and set the address of each Unit to 0005H.
A single V600-HAM91 can be used to read a Process Completion Flag from each completed process and write
a Process Completion Flag to each completed process if they are executed at the same station.
5. To read all data (product data and product quality control data) at the final process:
Use the V600-HAR91 and set the address to 0005H.
Process 1
Process 2
Process 3
Process 4
15
Application 2
No. of Product Types + No. of Processes: Between 8 and 16 Bits
No. of Product Types: 8 Bits (256 Types) or Less and
No. of Processes: 8 Bits (8 Processes) or Less
Example: 256 Product Types and 8 Processes
First Unit
Second Unit
Example: Address 0051H
Completion of process 4
Completion of process 3
Completion of process 2
Completion of process 1
Product data area:
8 bits (256 types of
products max.)
Production process con-
trol data area:
8 bits (8 processes max.)
Example: Address
0005H
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
1. To write product data and reset production process control data (set to 0):
Use the conventional ID System or two V600-HAM91 Units. The address of each Unit must be unique (e.g., set
the address of a Unit to 0050H and the address of the other Unit to 0051H).
2. To read product data from each process:
Use V600-HAR91 Units and set the address of each Unit to 0051H.
3. To read a Process Completion Flag from each completed process:
Use V600-HAR91 Units and set the address each Unit to 0050H.
A single V600-HAR92 can be used to read product data from each process and a Process Completion Flag
from each completed process if they are executed at the same station, in which case 0050H will be used.
4. To write a Process Completion Flag to each completed process. (A single bit is written by the V600-HAM91 for
each process in bit set mode.):
Use V600-HAM91 Units and set the address of each Unit to 0050H.
A single V600-HAM91 can be used to read a Process Completion Flag from each completed process and write
a Process Completion Flag to each completed process if they are executed at the same station, in which case
set the address to 0050H.
5. To read all data (product data and product quality control data) at the final process:
A total of 16 bits is read simultaneously.
16
Application 3
No. of Product Types + No. of Processes: 16 Bits or Less
No. of Product Types: 7 Bits (128 Types) or Less and
No. of Processes: 9 Bits (9 Processes) or More
Example: 8 Product Types and 13 Processes
First Unit
Second Unit
Non-completion of process 4
Completion of process 3
Product data area:
3 bits (8 types of products max.)
Production process control data area:
13 bits (13 processes max.)
Example: A process error will re-
sult if an object goes to process 5
without completing process 4.
Completion of process 2
Completion of process 1
Example: Address 0051H Example:
Address 0050H
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
1. To write product data and reset production process control data (set to 0):
Use the conventional ID System or two V600-HAM91 Units. The address of each Unit must be unique (e.g., set
the address of a Unit to 00A0H and the address of the other Unit to 00A1H).
2. To read product data from each process:
Use V600-HAR91 Units and set the address of each Unit to 00A1H.
3. To read a Process Completion Flag from each completed process:
Use V600-HAR91 Units and set the address of each Unit for processes 1 to 8 to 00A0H and the address of each
Unit for processes 9 to 13 to 00A1H.
A single V600-HAR92 can be used to read product data from each process and a Process Completion Flag
from each completed process if they are executed at the same station, in which case 00A0H will be used.
4. To write a Process Completion Flag each for all completed process. (A single bit is written by the V600-HAM91
for each process in bit set mode.):
Use V600-HAM91 Units and set the address of each Unit for processes 1 to 8 to 00A0H and the address of
each Unit for processes 9 to 13 to 00A1H.
5. To read all data (product data and product quality control data) at the final process:
A total of 16 bits is read simultaneously.
Use V600-HAR92 Units and set the address of each Unit to 00A0H.
Note: If Process Completion Flags are written to more than nine processes, set the address of each Unit for the
first eight processes to 0010H and the address of each Unit for the succeeding processes to 0011H, for
example.
Process 1
Process 2
Process 3
Process 4
Process 5
Process 6
17
Product Quality Control
Product quality control with bit data and product inspection data.
Used as a mechanical flag to distinguish products and will set an Ac-
cepted or Rejected Flag when a product inspection is completed.
Application 1
No. of Product Types + No. of Processes: 8 Bits or Less
Example: 8 Product Types and 5 Inspection Processes
Inspection 5: Accepted
Inspection 4: Accepted
Inspection 3: Rejected
Inspection 2: Accepted
Inspection 1: Accepted
Address
00B1H
Product data area:
3 bits (8 types of
products max.)
Inspection data area:
5 bits (5 processes max.)
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
1. To write product data and reset inspection data area (set 0):
Use the V600-HAM91 and set the address to 00B1H.
2. To read product data from each inspection process. (An inspection varies with the type of product.):
Use V600-HAR91 Units and set the address of each Unit to 00B1H.
3. To read the inspection result from the previous process. (This is effective when a product must not go to the
next process until the product finishes an inspection at the previous process.):
Use V600-HAR91 Units and set the address of each Unit to 00B1H.
A single V600-HAR91 can be used to read product data from each inspection process and the result of inspec-
tion from the previous process if they are executed at the same station.
4. To write the inspection result at each stage (1 for Accepted and 0 for Rejected) (A single bit is written by the
V600-HAM91 for each process in bit set mode.):
Use V600-HAM91 Units and set the address of each Unit to 00B1H.
A single V600-HAM91 can be used to read product data from each inspection process, read the result of in-
spection from the previous process, and write the result of inspection at each process if they are executed at
the same station.
5. To read all data (product data and product inspection data) at the final process:
Use the V600-HAR91 and set the address to 00B1H.
Inspection process 1
Inspection process 2
Inspection process 3
Inspection process 4
Inspection process 5
Final inspection process
18
Application 2
No. of Product Types + No. of Processes: 16 Bits or Less
No. of Product Types: 8 Bits (256 Types) or Less and
No. of Processes: 8 Bits (8 Processes) or Less
Example: 256 Product Types and 8 Processes
First Unit
Second Unit
Example: Address 00A1H
Example: Address 00A0H
Inspection processes 1 to 4
have been finished without
any problems
Product data area:
8 bits (256 types of products max.)
Inspection data area:
8 bits (8 processes max.)
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
1. To write product data and reset inspection data area (set 0):
Use the conventional ID System or two V600-HAM91 Units. The address of each Unit must be unique (e.g., set
the address of a Unit to 00A0H and the address of the other Unit to 00A1H).
2. To read product data from each inspection process. (An inspection varies with the type of product.):
Use V600-HAR91 Units and set the address of each Unit to 00A1H.
3. To read the inspection result from the previous process. (This is effective when a product must not go to the
next process until the product finishes an inspection at the previous process.):
Use V600-HAR91 Units and set the address of each Unit to 00A1H.
A single V600-HAR92 can be used to read product data from each inspection process and the result of inspec-
tion from the previous process if they are executed at the same station, in which case set the address to 00A0H.
4. To write the inspection result at each stage (1 for Accepted and 0 for Rejected) (A single bit is written by the
V600-HAM91 for each process in bit set mode.):
Use V600-HAM91 Units and set the address of each Unit to 00A1H.
A single V600-HAM91 can be used to read product data from each inspection process, read the result of in-
spection from the previous process, and write the result of inspection at each process if they are executed at
the same station.
5. To read all data (product data and product inspection data) at the final process. (A total of 16 bits is read
simultaneously.):
Use the V600-HAR92 and set the address to 00A0H.
19
Application 3
No. of Product Types + No. of Processes: 16 Bits or Less
No. of Product Types: 7 Bits (128 Types) or Less and
No. of Processes: 9 Bits (9 Processes) or More
Example: 16 Product Types and 12 Processes
First Unit
Second Unit
Example: Address 00FAH
Example: Address 00FBH Inspection processes 1 to 7
have been finished without
any problems
Product data area:
4 bits (16 types of products max.)
Inspection data area:
12 bits (12 processes max.) ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
ADDRESS
UPPER
DIGIT
LOWER
DIGIT
SET
1. To write product data and reset inspection data area (set 0):
Use the conventional ID System or two V600-HAM91 Units. The address of each Unit must be unique (e.g., set
the address of a Unit to 00FAH and the address of the other Unit to 00FBH).
2. To read product data from each inspection process. (An inspection varies with the type of product.):
Use V600-HAR91 Units and set the address of each Unit to 00FBH.
3. To read the inspection result from the previous process. (This is effective when a product must not go to the
next process until the product finishes an inspection at the previous process.):
Use V600-HAR92 Units and set the address of each Unit for inspection processes 1 to 8 to 00FAH and the
address of each Unit for processes 9 to 12 to 00FBH.
A single V600-HAR92 can be used to read product data from each inspection process and the result of inspec-
tion from the previous process if they are executed at the same station, in which case set the address to 00FAH.
4. To write the inspection result at each inspection process (1 for Accepted and 0 for Rejected) (A single bit is
written by the V600-HAM91 for each process in bit set mode.):
Use V600-HAM91 Units and set the address of each Unit for inspection processes 1 to 8 to 00FAH and the
address of each Unit for processes 9 to 12 to 00FBH.
5. To read all data (product data and product inspection data) at the final process. (A total of 16 bits is read
simultaneously.):
Use the V600-HAR92 and set the address to 00FAH.
Note: For example, set the address of each V600-HAM91 Unit for the first eight processes to 00FAH and the ad-
dress of each V600-HAM91 Unit for the succeeding processes to 00FBH if product inspection data is writ-
ten to more than nine inspection processes. The V600-HAM91 in bit set mode makes it possible to easily
write the result of inspection to one bit only. If the result of inspection is Rejected, the data will be 0 or cleared
by the V600-HAM91 in bit clear mode.
20 Intelligent Flag I/II V600-HA
Intelligent Flag I/II
V600-HA
An RFID system that is as easy and simple to
use as a sensor. No programming required.
• Saves space.
• Transmission distance: 100 mm max.
• A verification function provided on multi-functional type.
• Addition of 16-bit models to the series enables a wide range of
applications that include even quality control management.
• Equipped with a wiring reduction mode and communications
parity check function (16-bit models).
• Both NPN and PNP output available.
• CE marking/FCC approvals.
!Caution
Refer to “Correct Use” on page 27 for details.
Ordering Information/Specifications
■Amplifier
Type Read-only Multi-functional Read-only
Item Model V600-HAR91 V600-HAR81 V600-HAM91 V600-HAM81 V600-HAR92
Power supply 24 VDC ±10%, ripple (p-p): 10%
Current
consumption
130 mA max.
Input Transistor output or contact output
Short-circuit current: 3 mA (typical) (IN terminal and 0-V short-circuit)
OFF voltage: 15 to 30 VDC
ON voltage: 0 to 5 VDC
Input impedance: 8.2 kΩ
Applied voltage: 30 VDC max.
Transistor output
OFF voltage:
15 to 30 VDC
Input impedance:
8.2 kΩ
Short-circuit current:
3 mA (typical) (for 0-V
short-circuit of INHIBIT/
TRG)
ON voltage:
0 to 5 VDC
Applied voltage:
30 VDC max.
Output NPN open collector output,
20 mA max. at 30 VDC, re-
sidual voltage: 2 V max.
PNP open collector output,
20 mA max. at 30 VDC, re-
sidual voltage: 2 V max.
NPN open collector output,
20 mA max. at 30 VDC, re-
sidual voltage: 2 V max.
PNP open collector output,
20 mA max. at 30 VDC, re-
sidual voltage: 2 V max.
NPN open collector output,
20 mA max. at 30 VDC, re-
sidual voltage: 2 V max.
Diagnostic
functions
Checks for CPU errors and transmission errors
Insulation
resistance
50 MΩ max. (at 500 VDC) between cable terminals and case
Dielectric
strength
500 VAC, 50/60 Hz for 1 min between cable terminals and case (leakage current: 1 mA max.)
Intelligent Flag I/II V600-HA 21
Note: The connector is not watertight. If there is a possibility that the connector may be exposed to water, keep it inside the control box. Be sure
to use the connector together with the separately sold interface cable.
■Interface Cable
Note: The interface cable connector is not watertight. If there is a pos-
sibility that the connector may be exposed to water, keep it in-
side the control box. The maximum cable length is 10 m.
■Sensor
Vibration
resistance
Destruction: 10 to 150 Hz, 0.3-mm double amplitude, with 4 sweeps of 8 min each in 3 directions Destruction: 10 to
150 Hz, 1.5-mm double
amplitude, with 4
sweeps of 8 min each in
3 directions
Shock resistance Destruction: 294 m/s2, 3 times each in 6 directions
Ambient
temperature
−10 to 55°C (with no icing)
Ambient
humidity
35% to 85% (with no condensation)
Storage
temperature
−25 to 65°C
Degree of
protection
IEC 60529: IP40
Ground Ground to 100 Ω or less.
Material ABS resin (case)
Cable length Standard, 0.5 m with a dedicated connector (See note.)
Weight Approx. 170 g Approx. 180 g
Type Read-only Multi-functional Read-only
Item Model V600-HAR91 V600-HAR81 V600-HAM91 V600-HAM81 V600-HAR92
Amplifier Cable length Interface Cable
V600-HAR91/81
(Connector: 20 pin)
2 m V600-A60R
5 m V600-A61R
10 m V600-A62R
V600-HAM91/81
V600-HAR92
(Connector: 26 pin)
2 m V600-A60M
5 m V600-A61M
10 m V600-A62M
Model V600-HS51 V600-HS61 V600-HS63 V600-HS67
Shape
Item
Transmission frequency 530 kHz
Ambient temperature −10 to 60°C−10 to 70°C
Storage temperature −25 to 75°C
Ambient humidity 35% to 95%
Insulation resistance 50 MΩ (at 500 VDC) between cable terminal and case
Dielectric strength 1,000 VAC, 50/60 Hz for 1 min between cable terminal and case (leakage current: 1 mA max.)
Degree of protection IEC 60529: IP67
Vibration resistance Destruction: 10 to 2,000 Hz, 3-mm double amplitude, with
2 sweeps of 15 min each in 3 directions
Destruction: 10 to 500 Hz, 2-mm double amplitude, with 3
sweeps of 11 min each in 3 directions
Shock resistance Destruction: 981 m/s2, 3 times each in 3 directions (18
times total)
Destruction: 490 m/s2, 3 times each in 3 directions (18
times total)
Cable length 2 m (fixed)
Wireless transmission
error direction
16-bit CRC (Cyclic Redundancy Check) in both directions
Indicator --- Power: green
Weight Approx. 70 g Approx. 190 g Approx. 540 g
22 Intelligent Flag I/II V600-HA
System Configuration
Functions and Specifications
■Functions
V600-HAR91/-HAR81 (Read-only type)
Reads the 8-bit data (1 byte) of the set address and outputs to the 8
data output lines.
V600-HAM91/-HAM81 (Multi-functional type)
The amplifier has the following three basic functions.
Read
Reads the 8-bit (1 byte) data of the set address and outputs to the 8
data output lines.
Write
Writes on the set address the 8-bit (1 byte) data designated via the 8
data input lines.
Verify
Reads the 8-bit data (1 byte) of the set address, compares with the
8-bit (1 byte) data input via the 8 verification data input lines, and out-
puts the verification result.
V600-HAR92 (Read-only type)
Reads the 16-bit data (2 bytes) of the set address and outputs to the
16 data output lines.
Programmable Controller, I/O terminal, B7A, CompoBus/S, etc. Sensor Controller
V600-A6@R V600-A6@M
Interface cable
Amplifier
Sensor
Data Carrier
Power
supply
24 VDC
Power
supply
24 VDC
Power
supply
24 VDC
V600
-HAR91/
HAR81
V600
-HAM91/
HAM81
V600
-HAR92
Connector
connection
Connector connection Connector connection
V600-HS51 V600-HS61 V600-HS63 V600-HS67
V600
-D23P53
V600
-D23P54
V600
-D23P55
V600
-D23P61
V600
-D23P66N
V600
-D23P66SP
V600
-D23P72
V600
-D23P71
V600
-D8KR12
V600
-D8KR04
V600
-D2KR16
Wireless
transmission
Wireless
transmission
Terminal block wiring
Connector
connection
Connector
connection
Connector
connection
Host
Sensor
(Cable length: fixed to 2 m)
Amplifier (Cable length:
fixed to 0.5 m, with connector)
interface
XG4E-2031
(For V600-HAR91/81)
XG4E-2631
(For V600-HAM91/81/HAR92)
XG5M-2032-N
(For V600-HAR91/81)
XG5M-2632-N
(For V600-HAM91/81/HAR92)
Connector
connection
Interface cable available
in three types: 2 m, 5 m,
and 10 m (10 m max.)
Connector pins: 20
Cable lengths: 2 m, 5 m,
10 m
Connector pins: 26
Cable lengths: 2 m, 5 m,
10 m
Intelligent Flag I/II V600-HA 23
■Transmission Distance Specifications
Recommended Combinations
Note: 1. The specifications take fluctuations in ambient temperature and slight differences between products into account.
2. The read distance and write distance are the same.
3. Sensor Installation Conditions
•V600-HS51: When flush-mounted in iron
Axial offset from the Data Carrier: ±2.0 mm
•V600-HS61: When surface-mounted on metal (ferrous)
Axial offset from the Data Carrier: ±2.0 mm
•V600-HS63: When surface-mounted on metal (ferrous)
Axial offset from the Data Carrier: ±10.0 mm
•V600-HS67: When surface-mounted on metal (ferrous)
Axial offset from the Data Carrier: ±10.0 mm
4. Data Carrier Installation Conditions
•V600-D23P53/-P54: When flush-mounted in iron
•V600-D23P55/-P66N/-P66SP/-P71/-P72: When surface-mounted on resin (no metal on the backside)
•V600-D23P61: When surface-mounted on metal (ferrous)
•V600-D8KR12/-13/-04: When surface-mounted on metal (ferrous)
•V600-D2KR16: When the Data Carrier attached to the holder is mounted on a metal (ferrous) surface
5. The transmission distance specified in the specifications is also applicable when the Data Carrier is mounted on non-metallic surfaces.
6. The Data Carrier is stationary.
Circuit Configuration
V600-HAR91
V600-HAM91
Input Circuit
Output Circuit
V600-HAR92
Input Circuit
Output Circuit
V600-HAR81
V600-HAM81
Input Circuit
Output Circuit
Data Carrier
Amplifier V600-HAR91/-HAR81/-HAM91/-HAM81/-HAR92
Sensor V600-HS51 V600-HS61 V600-HS63 V600-HS67
Memory
EEPROM
(Battery-
less type)
V600-D23P53 0.5 to 3.0 mm 0.5 to 3.0 mm --- ---
V600-D23P54 0.5 to 5.0 mm 0.5 to 5.5 mm --- ---
V600-D23P55 0.5 to 7.0 mm 0.5 to 7.0 mm 0.5 to 9.5 mm ---
V600-D23P61 0.5 to 8.0 mm 0.5 to 9.0 mm 2 to 16 mm ---
V600-D23P66N --- --- 5 to 30 mm 5 to 35 mm
V600-D23P66SP --- --- 5 to 25 mm 5 to 30 mm
V600-D23P71 --- --- 5 to 35 mm 10 to 70 mm
V600-D23P72 --- 0.5 to 18 mm 5 to 35 mm 10 to 50 mm
Memory
SRAM
(Built-in-
battery type)
V600-D8KR12 5 to 15 mm 5 to 18 mm 5 to 45 mm 10 to 60 mm
V600-D8KR13 --- --- 10 to 30 mm 10 to 40 mm
V600-D8KR04 --- --- 10 to 65 mm 10 to 100 mm
V600-D2KR16 --- --- 2 to 15 mm ---
24 V
IN
0 V
8.2 kΩ
ON/
OFF
Tr
Main circuit
Main circuit
OUT
0 V
24 V
IN
0 V
8.2 kΩ
ON/
OFF
Tr
Main circuit
Main circuit
OUT
0 V
0 V
+DC
IN
Tr
Main circuit
8.2 kΩ
0 V
+DC
OU
T
Main circuit
24 Intelligent Flag I/II V600-HA
Characteristic Data (Typical)
■Transmission Range
Combinations with the V600-HS51 Sensor
Combinations with the V600-HS61 Sensor
0–4–8 4 8
4
8
X
YY
X
0–4–8–12 4
12
4
8
812
X
YY
X
0–5–10–15 5
10
15
5
10 15 X
YY
X
0–5–10–15 5 10 15 X
Y
X
5
10
15
Y
0–10–20–30 10 20 30
Y
X
10
20
30
X
Y
V600-HS51 & V600-D23P53 V600-HS51 & V600-D23P54 V600-HS51 & V600-D23P55
V600-HS51 & V600-D23P61 V600-HS51 & V600-D8KR12
0–4–8 4 8
Y
X
4
8
Y
X
Y
X
0–4–8–12 4 8 12
Y
X
4
12
8
0–5–10–15 5
10
15
5
10 15
Y
X
X
Y
0–5–10–15–20–25 5 10 15 20 25
Y
X
5
10
15
20 X
Y
0–10–20–30 10 20 30
Y
X
10
20
30
X
Y
0–10–20–30 10 20 30
Y
X
10
20
30
X
Y
V600-HS61 & V600-D23P53 V600-HS61 & V600-D23P54 V600-HS61 & V600-D23P55
V600-HS61 & V600-D23P61 V600-HS61 & V600-D23P72 V600-HS61 & V600-D8KR12
Intelligent Flag I/II V600-HA 25
Combinations with the V600-HS63 Sensor
X0–10–20–30 10
20
30
10
20 30
YY
X
0–10–20–30–40 10 20 30 40
Y
X
10
20
30
X
Y
0–10–20–30–40–50 10 20 30 5040
Y
X
10
20
30
40
50 Y
X
X
0–10–20–30–40–50 102030 5040
Y
X
10
20
30
40
50 Y
X
0–20–40–60 20 40 60
Y
X
20
40
60
X
Y
0–20–40–60 204060
Y
X
20
40
60
X
Y
0–20–40–60 20 40 60
Y
X
20
40
60
Y
X
0–20–40–60–80 20406080
Y
X
20
40
60
80
Y
X
0–20–40–60–80 20406080
Y
X
20
40
60
X
Y
V600-HS63 & V600-D23P55 V600-HS63 & V600-D23P61 V600-HS63 & V600-D23P66N
V600-HS63 & V600-D23P66SP V600-HS63 & V600-D23P71 V600-HS63 & V600-D23P72
V600-HS63 & V600-D8KR12 V600-HS63 & V600-D8KR04 V600-HS63 & V600-D2KR16
V600-HS63 & V600-D8KR13
0−20−40−60 20 40 60
Y
X
20
40
60
Y
X
26 Intelligent Flag I/II V600-HA
Combinations with the V600-HS67 Sensor
■Transmission Time
The transmission time refers to the time required for communications between the Sensor and the Data Carrier. It is used for calculating the travel
speed of the auto command.
Example: Combinations with the V600-HAR91, V600-HS63, and V600-D8KR04 Sensors.
Note: 1. The DC speed varies depending on transmission distance
Y and the axial offset. It is recommended that you refer to
the transmission range graphs and use the product where
the range is the largest.
2. This calculation is intended as a guideline only. Perform a
test with the actual product prior to use.
3. This equation does not include transmission error process-
ing.
Y
X
X020406080–20–40–60–80
60
20
40
Y
80
0–20–40–60–80 20406080
80
60
20
40
X
YY
XX
0–20–40–60–80–100 20 40 60 80 100
100
80
60
20
40
X
YY
X
0–20–40–60–80
–
100 20 40 60 80 100
100
80
60
20
40
X
YY
X
0–20–40–60–80 20406080
80
60
20
40
X
YY
X
0–20–40–60–80 20406080
80
60
20
40
X
YY
X
0–40–80–120 40 80 120
120
40
80
X
YY
X
V600-HS67 & V600-D23P66N V600-HS67 & V600-D23P66SP V600-HS67 & V600-D23P71
V600-HS67 & V600-D23P72 V600-HS67 & V600-D8KR12 V600-HS67 & V600-D8KR13
V600-HS67 & V600-D8KR04
DC speed
(conveyor
speed)
=Distance travelled in the transmission range
Transmission time
Model V600-HAR91/-HAR81/-HAM91/-HAM81 V600-HAR92
Read Write Read
Mode type DATA READ mode,
VERIFY READ mode
BYTE mode BIT SET mode, BIT
CLEAR mode
DATA READ mode
Data Carrier type EEPROM 75 ms 138 ms 150 ms 77 ms
SRAM 60 ms 95 ms 107 ms 62 ms
0–20–40–60–80 20 40 60 80
Y
X
20
40
60
80
Y
X
DC speed
(conveyor
speed)
=75 (mm)
60 (ms) =75 × 10-3 (m)
60 × 10-3 × 1/60 (min) = 75 (m/min)
Intelligent Flag I/II V600-HA 27
Precautions
■Cautions
Input/Output
The Data Input and Data Output lines are set to “1" when the transis-
tor turns ON and to “0" when it turns OFF.
Do not use a solid-state output with the following ratings with the
V600-HAM91/-HAM81, otherwise an external input error may result.
1. Maximum switching current: 1 A min.
2. Minimum switching current: 10 mA min.
3. Response time (ON to OFF): 3 ms min.
The following OMRON products cannot be connected to this product.
•CVM1-OD219, C20H, C28H, C40H, or C60H Programmable
Controllers
•Sensor Controllers other than from the S3D2 Series
When using a contact output, pay careful attention to chattering and
to the minimum switching current. Also note that the minimum
switching current may be specified for some solid-state outputs.
When connecting an inductive load or an electrical device that tends
to generate noise to the output, connect a diode in parallel with the
load. Connect the cathode side of the diode to the positive side of the
power source.
Power Supply Voltage
Do not impose any voltage exceeding the rated voltage range. Doing
so, or applying alternating current (100 VAC) may cause the product
to explode or burn.
Load Short-circuiting
Do not short-circuit the load connected to the product or connect to
the power supply. Doing so may cause the product to explode or
burn.
Wiring
Avoid wiring mistakes such as incorrect polarity in the power supply.
Wiring mistakes may cause the product to explode or burn.
■Correct Use
Grounding
The FG line is provided for grounding to the earth. When using the
Amplifier in an environment where it is exposed to large amounts of
noise or if the V600-HA@91/-HA@81/-HA@92 Amplifier malfunctions,
provide a Class-3 ground (ground resistance of 100 Ω or less). Note
that sharing the grounding wire with other equipment or grounding to
the beam of a building will adversely affect the grounding effect.
Mounting
Amplifier Spacing
When installing V600-HA@91/V600-HA@81/V600-HA@92 Amplifi-
ers in a row, provide a minimum space of 10 mm between Amplifiers
in order to prevent them from being affected by the heat produced by
each Amplifier.
When housing the Amplifiers in a box, provide a fan or ventilation
opening for radiating the heat.
When wiring power cables, which carry large current such as motor
drive cables, near the V600-HA@91/81/92 Amplifiers, conduct nec-
essary tests to make sure that the installation conditions are fully sat-
isfied.
I/O Interface Requirements
1. The TRG input must be 10 ms min.
2. The INHIBIT input must be 20 ms min.
3. Minimum of 5 ms is required as the transfer time of the Read/
Write Selection Input (W/R).
4. The read data output must be read after the Normal End Output is
set to ON.
CAUTION
Be sure to house the V600-HA@91/-HA@81/-HA@92 together
with their connectors and cable in control boxes when using them
and do not expose them to water, oil, dust, metal powder,
corrosive gas, or organic solvent, otherwise they may
malfunction, suffer damage, or burn.
The connectors of the V600-HA@91/-HA@81/-HA@92 can be
mounted to metal plates, provided that there is an insulation plate
with a thickness of 1.5 mm minimum between each of the
connectors and metal plates.
Diode
Diode
L
Open collector output DC
power supply
Peak inverse voltage
Minimum of three times of the load voltage
Average rectified current: 1 A
V600-HA@91/81/92 Other equipment
FG
Less than 100 Ω
V600-HA@91/81/92 Other equipment
FG
Less than 100 Ω
OK
NG
10 mm min.
V600-HA@91/81/92
28 Intelligent Flag I/II V600-HA
Connecting the Sensor
Hold the black part of the connector, line up the notch and push it in
until it clicks.
Compatibility with the SRAM Memory
Type Data Carrier
1. If the Data Carrier is stationary in the transmission area for a long
time when using the V600-HA@91/81 in the AUTO mode, or when
using the V600-HAR92, it will drastically reduce the battery life.
Therefore, stop the oscillation in the sensor either by turning off
the power of the V600-HA@91/81/92 Amplifier or by setting the
Inhibit input to ON.
2. Use a Data Carrier that has the oscillation frequency of 530 kHz.
Note that the following models manufactured before February
1991 cannot be used.
•V600-D2KR01
•V600-D2KR02
Precautions When Using the AUTO
Mode
If transmitting to the Data Carrier while it is traveling under the AUTO
mode, conduct tests to make sure that the travel speed and installa-
tion conditions are fully satisfied.
Dimensions
Note: All units are in millimeters unless otherwise indicated.
Amplifier
V600-HAR91/-HAR81
* Enlarged Section of Mounting Hole
Two, mounting
holes
*
Vinyl-insulated round cord 5.8-mm dia.,
13-conductor cable, standard length: 0.5 m
XG4E-2031
30°
4.4
5.5
30
21
17.5
28.3 36.3
61.8
89
8.2
98
68.5
55
30
80 35.2
500 mm
28.1
44.7
25
6
25
2-M4
89±0.2
21±0.2
Mounting Hole Dimensions
Intelligent Flag I/II V600-HA 29
V600-HAM91/-HAM81
* Enlarged Section of Mounting Hole
Two mounting
holes *
Vinyl-insulated round cord 5.8-mm dia.,
23-conductor cable, standard length: 0.5 m
XG4E-2631
30˚
4.4
5.5
30
21
17.5
28.3
36.3
61.8
52.3
44.3
89
8.2
98
68.5 75
55
30
80 35.2
500 mm
28.1
52.3
25
6
25
2-M4
89±0.2
21±0.2
Mounting Hole Dimensions
30 Intelligent Flag I/II V600-HA
V600-HAR92
Sensor
V600-HS51
V600-HS61
XG4E-2631
30˚
4.4
5.5
30
21
17.5
28.3
36.3
61.8
44.3
89
8.2
98
68.5 75
55
30
80 35.2
500 mm
28.1
52.3
25
6
25
2-M4
89±0.2
21±0.2
* Enlarged Section of Mounting Hole
Two, mounting
holes *
Vinyl-insulated round cord 5.8-mm dia.,
23-conductor cable, standard length: 0.5 m
Mounting Hole Dimensions
35
49.5
33
7
M12X1
9.6 dia. 13.7 dia.
Vinyl-insulated round cord (4-mm dia.)
Connector
2 lock washers
2 lock nuts
49.5
30.5
18
18
10
4.5
8.5
6.5
13.7 dia.
Vinyl-insulated round cord (4-mm dia.
)
Connector
Detection surface
12±0.2
2-3.5X5
(mounting holes)
Intelligent Flag I/II V600-HA 31
V600-HS63
V600-HS67
Interface Cable
V600-A6@R (for V600-HAR91/-HAR81)
V600-A6@M (for V600-HAM91/-HAM81/-HAR92)
51.5
10
2053
27 6
40 28
23
11
5
5
18
135
13.8 dia.
Two, 4.5-dia. mounting holes
Vinyl-insulated round cord 6-mm dia
(7/0.18-mm dia.), 8-conductor cable,
standard length: 2 m
Connector
4-R1 2-R5
Bushing
Power indicator (green)
Connector
Bushing
Vinyl-insulated round cord (6-mm dia.)
51.5
25
13.8 dia.
10
10
11
30
20
Power indicator
(green)
100
90
±
0.2
50
55
50
100
90
±
0.2
Four, 4.5-dia.
mounting holes
14
Vinyl-insulated round cord 9-mm dia
(7/0.2-mm dia.), 23-conductor cable,
standard length: 2 m XG5M-2632-N Connector
7.6
10.6
37.6
30
30±5
20±5
20±5
20±5
L+100
0
330+5
0
Vinyl-insulated round cord 9-mm dia (7/0.2-mm dia.),
23-conductor cable, standard length: 2 m XG5M-2032-N Connector
7.6
10.6
30
30
30±5
20±5
20±5
20±5
L+100
0
330+5
0
Model L (m)
V600-A60R/60M 2
V600-A61R/61M 5
V600-A62R/62M 10
32 Intelligent Flag I/II V600-HA
V600-series Data Carrier
Built-in-battery DCs
V600-D8KR12
V600-D8KR04
V600-D8KR13
Replaceable-battery DCs
V600-D2KR16
Battery-less DCs
V600-D23P66N V600-D23P66SP
40 30±0.2
10
65
55±0.2
5
27 10
Two, 4.5-dia. mounting holes
15 8Case: ABS resin
Filler: Epoxy resin
54
20
44±0.2
10
86
31
Four, 4.5-dia. mounting holes
55 76±0.2
Case: ABS resin
Filler: Epoxy resin
86
27 Two, 4.5-dia. mounting holes
10
54 44±0.2
10.3 5
576±0.2
10
Case: ABS resin
Filler: Epoxy resin
65
4-R1.5
40
5
R0.5 Case: ABS resin
5 0
– 0.1 6 0
– 0.2
5 0
– 0.1
24
2.2
6
36
30±0.1
24
R0.2
8 0
– 0.1 dia.
2-R1.0
R0.3
12 0
– 0.2 dia. R0.2
8 0
– 0.1 dia.
Two, 3.5-dia. mounting holes
V600-D23P53 V600-D23P54 V600-D23P55 V600-D23P61
Case: ABS resin
Filler: Epoxy resin
Case: ABS resin
Filler: Epoxy resin
Case: PPS resin
Filler: Epoxy resin
Case: ABS resin
Filler: Epoxy resin
4-R4
32
34
25±0.2 4-R3
32
34
25±0.2
Two, 6-dia.
3.5±0.1
Two, 3.5-dia.
25±0.2
25±0.2
2-M3
Case: PPS resin
Mounting Hole Dimensions
2-M5
4-R6
6.5
2.5 max.
34
36.5
34
80±0.2
95
1.3
80±0.2
Mounting Hole Dimensions
Coating: PFA resin
Two, 5.5-dia.
mounting holes
Intelligent Flag I/II V600-HA 33
V600-D23P71 V600-D23P72
54
1.5
86
4-R2
Case: Glass epoxy resin
Coating: Polyurethane resin
50
4-R2
34
1.5
Case: Glass epoxy resin
Coating: Polyurethane resin
ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.
To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527.
READ AND UNDERSTAND THIS DOCUMENT
Please read and understand this document before using the products. Please consult your OMRON representative if you have any questions or comments.
WARRANTY
OMRON’s exclusive warranty is that the products are free from defects in materials and workmanship for a period of one year (or other period if specified) from date of
sale by OMRON.
OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, REGARDING NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS
FOR PARTICULAR PURPOSE OF THE PRODUCTS. ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS DETERMINED THAT
THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. OMRON DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR
IMPLIED.
LIMITATIONS OF LIABILITY
OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY
WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED ON CONTRACT, WARRANTY, NEGLIGENCE, OR STRICT LIABILITY.
In no event shall responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted.
IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY, REPAIR, OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMRON’S
ANALYSIS CONFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED, STORED, INSTALLED, AND MAINTAINED AND NOT SUBJECT TO
CONTAMINATION, ABUSE, MISUSE, OR INAPPROPRIATE MODIFICATION OR REPAIR.
SUITABILITY FOR USE
THE PRODUCTS CONTAINED IN THIS DOCUMENT ARE NOT SAFETY RATED. THEY ARE NOT DESIGNED OR RATED FOR ENSURING SAFETY OF
PERSONS, AND SHOULD NOT BE RELIED UPON AS A SAFETY COMPONENT OR PROTECTIVE DEVICE FOR SUCH PURPOSES. Please refer to separate
catalogs for OMRON's safety rated products.
OMRON shall not be responsible for conformity with any standards, codes, or regulations that apply to the combination of products in the customer’s application or use
of the product.
At the customer’s request, OMRON will provide applicable third party certification documents identifying ratings and limitations of use that apply to the products. This
information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product, machine, system, or other
application or use.
The following are some examples of applications for which particular attention must be given. This is not intended to be an exhaustive list of all possible uses of the
products, nor is it intended to imply that the uses listed may be suitable for the products:
• Outdoor use, uses involving potential chemical contamination or electrical interference, or conditions or uses not described in this document.
• Nuclear energy control systems, combustion systems, railroad systems, aviation systems, medical equipment, amusement machines, vehicles, safety equipment,
and installations subject to separate industry or government regulations.
• Systems, machines, and equipment that could present a risk to life or property.
Please know and observe all prohibitions of use applicable to the products.
NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A
WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT IS PROPERLY RATED AND INSTALLED FOR THE INTENDED
USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.
PERFORMANCE DATA
Performance data given in this document is provided as a guide for the user in determining suitability and does not constitute a warranty. It may represent the result of
OMRON’s test conditions, and the users must correlate it to actual application requirements. Actual performance is subject to the OMRON Warranty and Limitations of
Liability.
CHANGE IN SPECIFICATIONS
Product specifications and accessories may be changed at any time based on improvements and other reasons.
It is our practice to change model numbers when published ratings or features are changed, or when significant construction changes are made. However, some
specifications of the product may be changed without any notice. When in doubt, special model numbers may be assigned to fix or establish key specifications for your
application on your request. Please consult with your OMRON representative at any time to confirm actual specifications of purchased products.
DIMENSIONS AND WEIGHTS
Dimensions and weights are nominal and are not to be used for manufacturing purposes, even when tolerances are shown.
ERRORS AND OMISSIONS
The information in this document has been carefully checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical, or
proofreading errors, or omissions.
PROGRAMMABLE PRODUCTS
OMRON shall not be responsible for the user’s programming of a programmable product, or any consequence thereof.
COPYRIGHT AND COPY PERMISSION
This document shall not be copied for sales or promotions without permission.
This document is protected by copyright and is intended solely for use in conjunction with the product. Please notify us before copying or reproducing this document in
any manner, for any other purpose. If copying or transmitting this document to another, please copy or transmit it in its entirety.
In the interest of product improvement, specifications are subject to change without notice.
Cat. No. Q104-E1-03
Printed in Japan
1004
OMRON Corporation
Industrial Automation Company
Application Sensors Division
Sensing Devices and Components Division H.Q.
Shiokoji Horikawa, Shimogyo-ku,
Kyoto, 600-8530 Japan
Tel: (81)75-344-7068/Fax: (81)75-344-7107
2007.3
OMRON Corporation
Industrial Automation Company
http://www.ia.omron.com/ (c)Copyright OMRON Corporation 2007 All Rights Reserved.
In the interest of product improvement, specifications are subject to change without notice.
Cat. No. Q104-E1-03
