Omron 6CYSIDV6800208 ReaderWriter/ RFID System User Manual Z279 E1 01

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Section 7
Chemical Resistance
ID タ グ取 り 付け時の注意事項
„ V680-D1KP52MT
ƒ Differences in Surrounding Metals (Reference)
Communications distances are affected by the type of metal in back of or surrounding the Tag, as
shown in the following table.
形V680-D1KP52MT
鉄
SUS
黄銅
アル ミ ニウム
100%
85～90%
80～85%
80～85%
注. 周囲/背面金属が鉄の場合を100% と し ています。
ƒ Mutual Interference with Tags (Reference)
Provide the mounting distances indicated below to prevent malfunctions due to mutual interference
when using more than one Tag.
25mm min.
25mm min.
Section 7 Reference Data
RFID System
User's Manual
149
Section 7
Chemical Resistance
„ V680-D1KP66MT
ƒ Effect of Metal behind Tags (Reference)
The V680-D1KP66MT can be surface-mounted or it can be embedded in metal. If it is embedded in
metal, the height of the metal casing must not exceed that of the Tag.
ID Tag
ID Tag
Surface-mounted
Embedded
3.5mm min.
Metal
Metal
• V680-HS52 &V680-D1KP66MT
(%)
100
90
80
70
60
50
40
30
20
10
10
The communications distance without
metal is 100%
The communications distance without
metal is 100%
• V680-HS63 &V680-D1KP66MT
(%)
100
90
80
70
60
50
40
30
20
10
20
30
40
Distance to metal (x)
(mm)
50
60
10
20
30
40
Distance to metal (x)
50
(mm)
• V680-HS65 &V680-D1KP66MT
(%)
100
90
80
70
60
50
40
30
20
10
The communications distance without
metal is 100%
Section 7 Reference Data
50
10
20
30
40
Distance to metal (x)
ID タ グ
(mm)
金属
ƒ Mutual Interference with Tags (Reference)
Provide the mounting distances indicated below to prevent malfunctions due to mutual interference
when using more than one Tag.
100mm min.
150
RFID System
User's Manual
100mm min.
Section 7
Chemical Resistance
„ V680-D2KF52M
ƒ Differences in Surrounding Metals (Reference)
Communications distances are affected by the type of metal in back of or surrounding the Tag, as
shown in the following table.
V680-D2KF52M
Steel
SUS
Brass
Aluminum
100%
80% to 85%
80% to 85%
75% to 80%
The values for steel are set to 100%
ƒ Mutual Interference with Tags (Reference)
Provide the mounting distances indicated below to prevent malfunctions due to mutual interference
when using more than one Tag.
25mm min.
25mm min.
Section 7 Reference Data
RFID System
User's Manual
151
Section 7
Chemical Resistance
„ V680-D2KF67M
ƒ Effect of Surrounding Metals (Reference)
The V680-D2KF67M can be surface-mounted or it can be embedded in metal. If it is embedded in
metal, the height of the metal casing must not exceed that of the Tag.
ID Tag
ID Tag
Surface-mounted
Embedded
4.5mm min.
Metal
Metal
• V680-HS63 & V680-D2KF67M
(%)
100
90
80
70
60
50
40
30
20
10
10
The communications distance without
metal is 100%
The communications distance without
metal is 100%
• V680-HS52 &V680-D2KF67M
(%)
100
90
80
70
60
50
40
30
20
10
20
30
40
Distance to metal (x)
(mm)
50
(mm)
10
20
30
40
Distance to metal (x)
50
(mm)
• V680-HS65 & V680-D2KF67M
(%)
100
90
80
70
60
50
40
30
20
10
The communications distance without
metal is 100%
Section 7 Reference Data
50
10
20
30
40
Distance to metal (x)
ID Tag
ƒ Mutual Interference with Tag (Reference)
To prevent malfunctioning due to mutual interference when using more than one Tag,
leave sufficient space between them as shown in the following diagram.
120mm min.
152
RFID System
User's Manual
120mm min.
Section 7
Chemical Resistance
„ V680-D1KP66T
ƒ Effect of Metal behind Tags (Reference)
The V680-D1KP66T communications distance is reduced if there is any metal material behind the Tag.
If the Tag is to be mounted to metal, then either use a V600-A86 Attachment (sold separately) or insert
a non-metal spacer (such as plastic or resin). The relationship between the distance from the Tag to
the metal surface and the communications distance is shown below.
The communications distance without
metal is 100%
The Attachment is 10 mm thick, and more than one Attachment can be stacked.
• V680-HS52 &V680-D1KP66T
V600-A86 Attachment Installation
(%)
100
90
80
70
60
50
40
30
20
10
M3 countersunk screw
10
20
30
40
Distance to metal (x)
ID Tag
50
(mm)
Antenna
Communications
distance
Metal
Install so that the mounting holes are aligned.
The communications distance without
metal is 100%
The communications distance without
metal is 100%
10
20
30
40
Distance to metal (x)
ID Tag
Antenna
50
(mm)
10
20
30
40
Distance to metal (x)
50
(mm)
Section 7 Reference Data
• V680-HS65 &V680-D1KP66T
(%)
100
90
80
70
60
50
40
30
20
10
• V680-HS63 &V680-D1KP66T
(%)
100
90
80
70
60
50
40
30
20
10
Metal on back
Antenna
ID Tag
Metal
Metal on back
Metal on back
Communications
distance
Metal
Communications
distance
ƒ Mutual Interference with Tag (Reference)
To prevent malfunctioning due to mutual interference when using more than one Tag, leave sufficient
space between them as shown in the following diagram.
100mm min.
100mm min.
RFID System
User's Manual
153
Section 7
Chemical Resistance
„ V680-D1KP66T-SP
ƒ Effect of Metal behind Tags (Reference)
Mounting ID Tags to metal workpieces or palettes will affect the communications capabilities. Place non-metallic parts (e.g., plastic or resin) between the metallic parts by referring to the following relationship between the
distance between the ID Tag and the metallic body versus the communications distance.
The communications distance without
metal is 100%
• V680-HS52 &V680-D1KP66T-SP
(%)
100
90
80
70
60
50
40
30
20
10
Metal on back
Metal
10
20
30
40
Distance to metal (x)
• V680-HS65 &V680-D1KP66T-SP
(%)
100
90
80
70
60
50
40
30
20
10
RFID System
User's Manual
10
20
30
40
Distance to metal (x)
Communications
distance
(mm)
The communications distance without
metal is 100%
50
Antenna
ID Tag
Metal on back
Metal
50
Communications
distance
(mm)
The communications distance without
metal is 100%
Section 7 Reference Data
20
30
40
Distance to metal (x)
• V680-HS63 &V680-D1KP66T-SP
(%)
100
90
80
70
60
50
40
30
20
10
154
10
ID Tag
Antenna
Antenna
ID Tag
Metal on back
Metal
50
(mm)
Communications
distance
Section 7
Chemical Resistance
ƒ Mutual Interference with Tag (Reference)
To prevent malfunctioning due to mutual interference when using more than one Tag, leave sufficient
space between them as shown in the following diagram.
100mm min.
100mm min.
100mm min.
100mm min.
Section 7 Reference Data
RFID System
User's Manual
155
Section 7
Chemical Resistance
„ V680-D2KF67
ƒ Effect of Metal behind Tags (Reference)
The V680-D2KF67 communications distance is reduced if there is any metal material behind the Tag.
• V680-HS63 &V680-D2KF67
(%)
100
90
80
70
60
50
40
30
20
10
The communications distance without
metal is 100%
The communications distance without
metal is 100%
• V680-HS52 &V680-D2KF67
(%)
100
90
80
70
60
50
40
30
20
10
10
20
30
40
Distance to metal (x)
ID Tag
50
(mm)
10
20
30
40
Distance to metal (x)
ID Tag
Antenna
50
(mm)
Antenna
Metal on back
Metal on back
Communications
distance
Communications
distance
The communications distance without
metal is 100%
Section 7 Reference Data
• V680-HS65 &V680-D2KF67
(%)
100
90
80
70
60
50
40
30
20
10
10
20
30
40
Distance to metal (x)
Antenna
ID Tag
50
(mm)
Metal on back
Metal
Communications
distance
ƒ Mutual Interference with Tag (Reference)
To prevent malfunctioning due to mutual interference when using more than one Tag, leave sufficient
space between them as shown in the following diagram.
200mm min.
156
RFID System
User's Manual
200mm min.
Section 7
Chemical Resistance
„ V680-D8KF68/-D32KF68
ƒ Effect of Metal behind Tags (Reference)
• Special Attachment (V680-A81) Installation Direction
M4 screw
Spring washer
The transmission distance will be reduced if there is metal in back of
Flat washer
a Tag. When mounting on a metal surface, use the special
Attachment (V680-A81) of another sales or insert a non-metallic
spacer (e.g., plastic, wood, etc.).
The following diagrams show the relationship between the distance
between a Tag and metal surface and the transmission distance. The
Attachment is 10 mm thick.
10
20
30
Distance to metal (x)
Antenna
Atachment
ID Tag
40
(mm)
Metal on back
Communications
distance
40
(mm)
Metal
20
30
Distance to metal (x)
Atachment
Antenna
ID Tag
Metal on back
Metal
10
The communications distance without
metal is 100%
The communications distance without
metal is 100%
• V680-HS63 &V680-D8KF68/-D32KF68
(%)
When Attachment (V680-A81) is used
100
90
80
70
When Attachment (V680-A81) is not used
60
50
40
30
20
10
Communications
distance
Section 7 Reference Data
• V680-HS63 &V680-D8KF68/-D32KF68
(%)
When Attachment (V680-A81) is used
100
90
80
70
60
When Attachment (V680-A81) is not used
50
40
30
20
10
RFID System
User's Manual
157
Section 7
Chemical Resistance
ƒ Mutual Interference with Tags (Reference)
To prevent malfunctioning due to mutual interference when using more than one Tag, leave sufficient
space between them as shown in the following diagram.
When V680-HS63, V680-HS52 are Used
120mm min.
120mm min.
120mm min.
120mm min.
150mm min.
150mm min.
150mm min.
150mm min.
When V680-HS65 is Used
Section 7 Reference Data
158
RFID System
User's Manual
Section 7
Chemical Resistance
Infuence of Angle (Refernce)
Install Antennas and Tags as close to parallel to each other as possible. Communications are possible
even when an Antenna and a Tag are mounted at an angle, but the communications distance will be
shortened. The relation between the angle and the communications distance is shown below.
ƒ Percentage Drop in Communications Distance According to Angle of V680-D1KP52MT
Tag angle (θ°)
V680-HS51 and V680-D1KP52MT
V680-HS51 and V680-D1KP52MT
(Metal: Steel)
V680-HS52 and V680-D1KP52MT
V680-HS52 and V680-D1KP52MT
(Metal: Steel)
V680-HS63 and V680-D1KP52MT
10
20
30
40
0%
-1%
-5%
-10%
-15%
0%
0%
0%
-4%
-28%
0%
0%
0%
-2%
-6%
0%
-6%
-13%
-25%
0%
-2%
-5%
-9%
-14%
-: The measurement is no possible because the Tag comes in contact with the Antenna.
• V680-HS51 & V680-D1KP52MT
• V680-HS51 & V680-D1KP52MT
(Metal: Steel)
Steel
Steel
Nuts
ID Tag
Antenna
Non-metallic
material
θ
ID Tag
Toothed washer
Steel
θ
• V680-HS52 & V680-D1KP52MT
• V680-HS52 & V680-D1KP52MT
(Metal: Steel)
ID Tag
ID Tag
Antenna
θ
Non-metallic
material
Antenna
θ
Section 7 Reference Data
Toothed washer
Nuts
Antenna
Steel
●形V680-HS63 & 形V680-D1KP52MT
ID Tag
θ
Non-metallic
material
Antenna
Steel
RFID System
User's Manual
159
Section 7
Chemical Resistance
ƒ Percentage Drop in Communications Distance According to Angle of V680-D1KP66T
Tag angle (θ°)
V680-HS63 and V680-D1KP66T
V680-HS65 and V680-D1KP66T
• V680-HS52 & V680-D1KP66T
θ
Antenna
10
20
30
40
0%
-1%
-2%
-4%
-7%
0%
-2%
-3%
-5%
-9%
0%
-1%
-3%
-6%
-11%
• V680-HS63 & V680-D1KP66T
θ
Non-metallic material
V680-HS52 and V680-D1KP66T
ID Tag
ID Tag
Antenna
Metal
• V680-HS65 & V680-D1KP66T
θ
ID Tag
Section 7 Reference Data
160
Antenna
RFID System
User's Manual
Section 7
Chemical Resistance
ƒ Percentage Drop in Communications Distance According to Angle of V680-D1KP66MT
Tag angle (θ°)
10
20
30
40
V680-HS52 and V680-D1KP66MT
(Metal: Steel)
0%
-1%
-2%
-5%
-9%
V680-HS63 and V680-D1KP66MT
(Metal: Steel)
0%
-1%
-4%
-7%
-13%
V680-HS65 and V680-D1KP66MT
(Metal: Steel)
0%
-1%
-6%
-15%
-: The measurement is no possible because the Tag comes in contact with the Antenna.
• V680-HS52 & V680-D1KP66MT
• V680-HS63 & V680-D1KP66MT
(Metal: Steel)
Non-metallic material
θ
Antenna
(Metal: Steel)
θ
ID Tag
ID Tag
Antenna
• V680-HS65 & V680-D1KP66MT
Metal
(Metal: Steel)
Section 7 Reference Data
θ
ID Tag
Antenna
RFID System
User's Manual
161
Section 7
Chemical Resistance
ƒ Percentage Drop in Communications Distance According to Angle of V680-D1KP66T-SP
Tag angle (θ°)
V680-HS63 and V680-D1KP66T-SP
V680-HS65 and V680-D1KP66T-SP
• V680-HS52 & V680-D1KP66T-SP
θ
ID Tag
Antenna
10
20
30
40
0%
-1%
-2%
-4%
-7%
0%
-2%
-3%
-5%
-9%
0%
-1%
-3%
-6%
-11%
• V680-HS63 & V680-D1KP66T-SP
θ
Non-metallic material
V680-HS52 and V680-D1KP66T-SP
ID Tag
Antenna
Metal
• V680-HS65 & V680-D1KP66T-SP
θ
ID Tag
Section 7 Reference Data
162
Antenna
RFID System
User's Manual
Section 7
Chemical Resistance
ƒ Percentage Drop in Communications Distance According to Angle of V680-D2KF52M
Tag angle (θ°)
V680-HS51 and V680-D2KF52M
V680-HS51 and V680-D2KF52M
(Metal: Steel)
V680-HS52 and V680-D2KF52M
V680-HS52 and V680-D2KF52M
(Metal: Steel)
V680-HS63 and V680-D2KF52M
10
20
30
40
0%
-2%
-6%
-12%
-22%
0%
0%
0%
-7%
-30%
0%
0%
0%
-2%
-5%
0%
-2%
-7%
0%
0%
-1%
-4%
-9%
-: The measurement is no possible because the Tag comes in contact with the Antenna.
• V680-HS51 & V680-D2KF52M
• V680-HS51 & V680-D2KF52M
(Metal: Steel)
Steel
Steel
Nuts
ID Tag
Antenna
Toothed washer
Non-metallic
material
θ
Nuts
ID Tag
Antenna
Toothed washer
θ
Non-metallic
material
• V680-HS52 & V680-D2KF52M
(Metal: Steel)
ID Tag
ID Tag
Antenna
Non-metallic
material
θ
Antenna
θ
Steel
• V680-HS63 & V680-D2KF52M
Section 7 Reference Data
• V680-HS52 & V680-D2KF52M
ID Tag
θ
Non-metallic
material
Antenna
Steel
RFID System
User's Manual
163
Section 7
Chemical Resistance
ƒ Percentage Drop in Communications Distance According to Angle of V680-D2KF67
Tag angle (θ°)
V680-HS63 and V680-D2KF67
V680-HS65 and V680-D2KF67
• V680-HS52 & V680-D2KF67
θ
Antenna
10
20
30
40
0%
-0%
0%
-1%
-2%
0%
-1%
-2%
-3%
-6%
0%
-1%
-3%
-7%
-11%
• V680-HS63 & V680-D2KF67
θ
Non-metallic material
V680-HS52 and V680-D2KF67
ID Tag
ID Tag
Antenna
• V680-HS65 & V680-D2KF67
Metal
Section 7 Reference Data
164
θ
ID Tag
Antenna
RFID System
User's Manual
Section 7
Chemical Resistance
ƒ Percentage Drop in Communications Distance According to Angle of V680-D2KF67M
Tag angle (θ°)
10
20
30
40
V680-HS52 and V680-D2FKP67M
(Metal: Steel)
0%
-1%
-2%
-4%
-6%
V680-HS63 and V680-D2FKP67M
(Metal: Steel)
0%
-2%
-5%
-8%
-14%
V680-HS65 and V680-D2FKP67M
(Metal: Steel)
0%
-2%
-7%
-16%
-31%
• V680-HS52 & V680-D2KF67M
• V680-HS63 & V680-D2KF67M
(Metal: Steel)
(Metal: Steel)
Non-metallic material
θ
θ
ID Tag
Antenna
ID Tag
Antenna
• V680-HS65 & V680-D2KF67M
(Metal: Steel)
Section 7 Reference Data
Metal
θ
ID Tag
Antenna
RFID System
User's Manual
165
Section 7
Chemical Resistance
ƒ Percentage Drop in Communications Distance According to Angle of V680-D8KF68, V680-D32KF68
Tag angle (θ°)
10
20
30
40
V680-HS63 and V680-D8KF68 or V680-D32KF68
(Horizontal-facing ID Tag)
0%
0%
0%
0%
0%
V680-HS63 and V680-D8KF68 or V680-D32KF68
(Vertical-facing ID Tag)
0%
-1%
-2%
-3%
-5%
V680-HS65 and V680-D8KF68 or V680-D32KF68
(Horizontal-facing ID Tag)
0%
-1%
-2%
-4%
-6%
V680-HS65 and V680-D8KF68 or V680-D32KF68
(Vertical-facing ID Tag)
0%
-1%
-3%
-6%
-10%
• V680-HS63 & V680-D8KF68 or V680-D32KF68
• V680-HS63 & V680-D8KF68 or V680-D32KF68
(Horizontal-facing ID Tag)
(Vertical-facing ID Tag)
θ
Metal
Metal
θ
ID Tag
ID Tag
Antenna
Antenna
• V680-HS65 & V680-D8KF68 or V680-D32KF68
• V680-HS65 & V680-D8KF68 or V680-D32KF68
(Horizontal-facing ID Tag)
(Horizontal-facing ID Tag)
ID Tag
ID Tag
Antenna
166
θ
Metal
Metal
Section 7 Reference Data
θ
RFID System
User's Manual
Antenna
Section 7
Chemical Resistance
ID Tag Memory
V680-D1KP□□
Address
0000Hex
0001Hex
0002Hex
0003Hex
：
：
03E6Hex
03E7Hex
Data
User area
EEPROM is used as memory in the Tags.
The memory capacity available to the user is 1,000 bytes,
including 0000H to 0003H (the Write Protection Setting Area).
1 byte
V680-D2KF□□
Address
0000Hex
0001Hex
0002Hex
0003Hex
：
：
07CEHex
07CFHex
Data
User area
FRAM is used as memory in the Tags.
The memory capacity available to the user is 1,000 bytes,
including 0000H to 0003H (the Write Protection Setting Area)
1 byte
Address
0000Hex
0001Hex
0002Hex
0003Hex
：
：
1FFEHe
1FFFHe
Data
User area
FRAM is used as memory in the Tags.
The memory capacity available to the user is 8,192 bytes,
including 0000H to 0003H (the Write Protection Setting Area)
Section 7 ID Tag Memory
V680-D8KF□□
1 byte
V680-D32KF□□
Address
0000Hex
0001Hex
0002Hex
0003Hex
：
：
7FFEHe
7FFFHe
Data
User area
FRAM is used as memory in the Tags.
The memory capacity available to the user is 32,744 bytes,
including 0000H to 0003H (the Write Protection Setting Area)
1 byte
メ モ リ へのア ク セスは16 ビ ッ ト 単位(2バイ ト 単位)に行われます。 ただ し 、 1バイ ト ラ イ ト モー ド 指定の場合は、 8 ビ ッ ト 単位(1
バイ ト 単位) と な り ます。
RFID System
User's Manual
167
Section 7
Chemical Resistance
ID Tag Memory Capacities and Memory Types (V680 Series)
(As of December 2007)
Model
Memory capacity
(user memory)
Memory type
V680-D1KP52MT
V680-D1KP66T
V680-D1KP66MT
1,000 bytes
EEPROM
Life expectancy
Overwrite operations: 100,000 times for each address at
25°C
Data retention: 10 years (up to 85°C)
V680-D1KP66T-SP
V680-D2KF52M
V680-D2KF67
2,000 bytes
V680-D2KF67M
V680-D8KF68
8,192 bytes
V680-D32KF68
32,744 bytes
Section 7 ID Tag Memory Capacities and Memory Types (V680 Series)
168
RFID System
User's Manual
Number of accesses: 10 billion times
FRAM
Data retention: 10 years (up to 55°C)
Section 7
Chemical Resistance
Chemical Resistance of the Antennas, and Tags
Chemical Resistance of the Antennas
„ Applicable Models
V680-HS51
V680-HS52-W/R
V680-HS63-W/R
V680-HS65-W/R
ABS resin is used for case material and epoxy resin for filling material. Refer to the following lists and do not
use chemicals that affect ABS and epoxy resin.
ƒ Chemicals That Cause Deformations, Cracks, Etc.
ABS resin
Trichlene, acetone, xylene, toluene, gasoline, creosol,
methylene chloride, phenol, cyclohexane, aqua regia,
chromic acid, sulfuric acid (90% RT), methyl ethyl
ketone, aniline, nitrobenzine, monochlorobenzine,
pyridine, nitric acid (60% RT), formic acid (80% RT)
Epoxy resin
Aqua regia, chromic acid, sulfuric acid (90% RT),
nitric acid (60% RT), ammonia solution, acetone,
methylene chloride, phenol
ƒ Chemicals That May Cause Discoloration, Swelling, Etc.
ABS resin
Hydrochloric acid, alcohol, Freon, sodium hydroxide,
hydrogen peroxide, benzine, sulfuric acid (10% RT),
nitric acid (10% RT), phosphoric acid (85% RT),
ammonia solution
Epoxy resin
Sulfuric acid (10% RT), nitric acid (10% RT), hydrochloric acid (30% RT), acetic acid (50% RT), oxalic acid,
calcium hydroxide, benzine, creosol, alcohol, cyclohexane, toluene, xylene, benzine, grease
ABS resin
Ammonia, kerosine, mineral oil, developer, Yushiroken
S50, Chemi-Cool Z, Velocity No. 3, Yushiroken EEE30Y, petroleum, grease, acetic acid, oxalic acid, calcium hydroxide, phosphoric acid (30% RT), hydrochloric acid (10% RT), potassium hydroxide
Epoxy resin
Ammonia, hydrochloric acid (10% RT), potassium
hydroxide, petroleum, gasoline, Yushiroken S50,
Chemi-Cool Z, Velocity No. 3, Yushiroken EEE-30Y
Note: The above results are from tests conducted a room temperature (23°C). Even if the chemicals
do not affect the ABS or epoxy resins at room temperature, they may affect the resins at higher or
lower temperatures. Check the chemicals carefully in advance.
RFID System
User's Manual
Section 7 Chemical Resistance of the Antennas, and Tags
ƒ Chemicals That Do Not Affect PPS Resin or Epoxy Resin
173
Section 7
Chemical Resistance
Chemical Resistance of Tags
„ Applicable Model
V680-D1KP52MT
V680-D2KF52M
PPS resin is used for case material and epoxy resin for filling material. Refer to the following lists and do not
use chemicals that affect PPS and epoxy resin.
Tags cannot be used in applications with explosion-proof specifications.
ƒ Chemicals That Cause Deformations, Cracks, Etc.
PPS resin
Aqua regia
Epoxy resin
Aqua regia, chromic acid, sulfuric acid (90% RT),
nitric acid (60% RT), ammonia solution, acetone,
methylene chloride, phenol
ƒ Chemicals That May Cause Discoloration, Swelling, Etc.
PPS resin
Nitric acid (60% RT)
Epoxy resin
Sulfuric acid (10% RT), nitric acid (10% RT), hydrochloric acid (30% RT), acetic acid (50% RT), oxalic acid,
calcium hydroxide, benzine, creosol, alcohol, cyclohexane, toluene, xylene, benzine, grease
ƒ Chemicals That Do Not Affect PPS Resin or Epoxy Resin
PPS resin
Section 7 Chemical Resistance of the Antennas, and Tags
174
Hydrochloric acid (37%RT), sulfuric acid (98%RT),
nitric acid (40%RT), Hydrogen fluoride solution
(40%RT), chromic acid (40%RT), hydrogen peroxide
(28%RT), sodium hydroxide solution (60%RT),
ammonia solution (28%RT), sodium chloride (10%RT),
sodium carbonate (20%RT), sodium hypochlorite,
phenol solution (5%RT), glacial acetic acid, acetic acid,
oleic acid, Methyl alcohol (95%RT), ethyl alcohol
(95%RT), Ethyl acetate, sebacic acid, diethylhexyl,
acetone, diethyl ether, n-heptane, 2-2-4 trimethylpentane, benzine, toluene, aniline, mineral oil, gasoline,
insulating oil, dichloroethylene, carbon tetrachloride
Epoxy resin
Ammonia, hydrochloric acid (10% RT), potassium
hydroxide, petroleum, gasoline, Yushiroken S50,
Chemi-Cool Z, Velocity No. 3, Yushiroken EEE-30Y,
methyl ethyl ketone, sodium hydroxide (10%RT)
Note: The above results are from tests conducted a room temperature (23°C). Even if the chemicals
do not affect the PPS or epoxy resins at room temperature, they may affect the resins at higher
or lower temperatures. Check the chemicals carefully in advance.
RFID System
User's Manual
Section 7
Chemical Resistance
„ Applicable Models
V680-D1KP66T/66MT
At room
temperature
At
90°C
At
90°C
Glacial acetic acid
Acetic acid
Oleic acid
Methyl alcohol
95%
60%
Ethyl alcohol
95%
40%
Ethyl acetate
10%
Sebacic acid diethylhexyl
Hydrogen fluoride solution 40%
Acetone
Chromic acid
40%
Diethyl ether
Hydrogen peroxide solution
28%
3%
2-2-4 trimethylpentane
Sodium hydroxide solution 60%
Benzene
10%
Toluene
1%
Aniline
28%
Mineral oil
10%
Gasoline
Sodium chloride
10%
Insulating oil
Sodium carbonate
20%
Dichloroethylene
2%
Carbon tetrachloride
Hydrochloric acid
37%
Sodium hypochlorite
10%
Phenol solution
Sulfuric acid
98%
50%
30%
3%
Nitric acid
Ammonia solution
Chemical
5%
n-heptane
A: Has no adverse effect, B: May cause discoloration, swelling, etc., C: Causes deformation, cracks, etc.
The above table shows the extent of changes in PPS resin exposed to each chemical at room temperature
and at 90°C. If actual chemicals, concentrations, and temperatures are different from those shown in the
tables, always conduct tests under the actual conditions in which the Tags are to be used.
RFID System
User's Manual
Section 7 Chemical Resistance of the Antennas, and Tags
At room
temperature
Chemical
175
Section 7
Chemical Resistance
„ Applicable Models
V680-D1KP66T-SP
ƒ Chemical Resistance of Fluoroplastic PFA (Reference)
PFA: Tetrafluorethylene-Perfluoroalkylvinyletheir Copolymer
Fluoroplastic PFA does not react with most chemicals except molten alkali metal, hot pressurized
fluorine (F2), and some halogen derivatives. The following tables show the results of tests in which PFA
was soaked in or exposed to commonly used organic and inorganic chemicals. In these tests, a
compression-molded test piece (1.3 mm thick) was soaked in the chemical at a specified temperature
for a week (168 houre) and taken out of the chemical, then the weight change, tensile strength, and
elongation of the test piece were immediately measured. If the change in the tensile strength is 15 % or
less, the cange in the elongation is 10 % or less, and the increase in the weight is less than 0.5 %, the
results of the test can be considered normal.
If PFA is exposed to trichloroacetic acid, tri-n-butyl phosphate, perchloroethylene, carbon thtrachloride,
and other liquids (which easily make resin surfaces wet) at a high temperature, it tends to increase its
weight due to absorption and reduce its tensile strength. Even when PFA absorbs chemicals and solvents, its molecular structure will not change, If, however, PFA is subject to temperature or pressure
changes or mechanical damage when it has absorbed chemicals, the chemicals will repeatedly
expand and contract inside pfa, causing mechanical problems such as cracks and bulging. In fact, this
problem occurs with any kind of plastic.
ƒ Inorganic Chemicals
Section 7 Chemical Resistance of the Antennas, and Tags
176
Test
temperature
(°C)
Chemical name
Resulting characteristics
(%)
Tensile
strength
Elongation
Weight
increase
rate (%)
concentrated hydrochloric acid
120
98
100
0.0
Concentrated sulfuric acid
120
95
98
0.0
Hydrofluoric acid (60%)
23
99
99
0.0
Fuming sulfuric acid
23
95
96
0.0
Aqua regia
120
99
100
0.0
Chromic acid (50%)
120
93
97
0.0
Consentrated nitric acid
120
95
98
0.0
Fuming nitric acid
23
99
99
0.0
Concentrated ammonia solution
66
98
100
0.0
Caustic soda (50%)
120
93
99
0.4
Hydrogen peroxide solution (30%) 23
93
95
0.0
Bromine
23
99
100
0.5
Chlorine
120
92
100
0.5
Ferrous chloride (25%)
100
93
98
0.0
Zinc chloride (25%)
100
96
100
2.7
Chlorosulfonic acid
151
91
100
2.7
Concentrated phosphoric acid
100
93
100
0.0
RFID System
User's Manual
Section 7
Chemical Resistance
ƒ Organic Chemicals
Test
temperature
(°C)
Chemical name
Resulting characteristics
(%)
Tensile
strength
Elongation
Weight
increase
rate (%)
Glacial acetic acid
118
95
100
0.4
Acetic anhydride
139
91
99
0.3
196
90
100
2.2
Isooctane
99
94
100
0.7
Naphtha
100
91
100
0.5
Mineral oil
180
87
95
0.0
Toluene
110
88
100
0.7
o-creosol
191
92
96
0.2
Nitrobenzene
210
90
100
0.3
Benzyl alcohol
205
93
99
0.3
Aniline
185
94
100
0.3
n-butylamine
78
86
97
0.4
Ethylenediamine
117
96
100
0.1
Tetrahydrofuran
66
88
100
0.1
Benzaldehyde
179
90
99
0.5
Cyclohexane
156
92
100
0.4
Methyl ethyl ketone
80
90
100
0.4
Acetophenone
202
90
100
0.6
Dimethylphtalate
200
98
100
0.3
n-butyl acetate
125
93
100
0.5
Tri-n-butyl phosphate
200
91
100
2.0
Methylene chloride
40
94
100
0.8
Perchloroethylene
121
86
100
2.0
Carbon tetrachloride
77
87
100
2.3
Dimethyl formamide
154
96
100
0.2
Dimethyl sulfoxide
189
95
100
0.1
Dioxane
101
92
100
0.6
Section 7 Chemical Resistance of the Antennas, and Tags
Trichloroacetic acid
Reference: Fluoroplastics Handbook, The Nikkan Kogyo Shimbun Ltd. (Takaomi Satogawa)
RFID System
User's Manual
177
Section 7
Chemical Resistance
ƒ Substances Extracted from Tag (Reference)
If chemicals penetrate into a Tag through PFA, ions may be extracted from the Tag.
ƒ Results of Ion-exchange Chromatography
A built-in Tag was soaked in hot water (100°C for 16 houres), and extracted ions were analyzed. The
results are shown below.
Extracted Ions (Concentration)
Cl: 0.5 ppm, Na+: 10 ppm, NH4+: 11 ppm, K+: 1.0 ppm
ƒ Results of ICP Emission Spectral Analysis
The V680-D1KP66T-SP Tag was soaked in condentrated hydrochloric acid (which can easily penetrate
through PFA) at 80°C fo 300 hours, then extracted substances were analyzed.
Extracted Substances (Concentration)
Si: 700 ng/ml, S: 1,000 ng/ml, Ca: 30 ng/ml
The chemical resistance and extracted substances presented here should be used for reference only. The
rates of change in Tag characteristics and the amounts of substances extracted will vary with temperatures
and chemical concentrations. Before using Tags under actual production environment, always conduct tests to
check for any problems
Section 7 Chemical Resistance of the Antennas, and Tags
178
RFID System
User's Manual
Section 7
Chemical Resistance
„ Applicable Models
V680-D2KF67/67M
Chemicals that affect Tags are shown below.
ABS resin is used for case material and epoxy resin for filling material. Refer to the following lists and do not
use chemicals that affect ABS and epoxy resin.
Tags cannot be used in applications with explosion-proof specifications.
ƒ Chemicals That Cause Deformations, Cracks, Etc.
ABS resin
Trichlene, acetone, xylene, toluene, gasoline, creosol,
methylene chloride, phenol, cyclohexane, aqua regia,
chromic acid, sulfuric acid (90% RT), methyl ethyl
ketone, aniline, nitrobenzine, monochlorobenzine,
pyridine, nitric acid (60% RT), formic acid (80% RT)
Epoxy resin
Aqua regia, chromic acid, sulfuric acid (90% RT),
nitric acid (60% RT), ammonia solution, acetone,
methylene chloride, phenol
ƒ Chemicals That May Cause Discoloration, Swelling, Etc.
ABS resin
Hydrochloric acid, alcohol, Freon, sodium hydroxide,
hydrogen peroxide, benzine, sulfuric acid (10% RT),
nitric acid (10% RT), phosphoric acid (85% RT),
ammonia solution
Epoxy resin
Sulfuric acid (10% RT), nitric acid (10% RT), hydrochloric acid (30% RT), acetic acid (50% RT), oxalic acid,
calcium hydroxide, benzine, creosol, alcohol, cyclohexane, toluene, xylene, benzine, grease
ABS resin
Ammonia, kerosine, mineral oil, developer, Yushiroken
S50, Chemi-Cool Z, Velocity No. 3, Yushiroken EEE30Y, petroleum, grease, acetic acid, oxalic acid, calcium hydroxide, phosphoric acid (30% RT), hydrochloric acid (10% RT), potassium hydroxide
Epoxy resin
Ammonia, hydrochloric acid (10% RT), potassium
hydroxide, petroleum, gasoline, Yushiroken S50,
Chemi-Cool Z, Velocity No. 3, Yushiroken EEE-30Y
Note: The above results are from tests conducted a room temperature (23°C). Even if the chemicals
do not affect the ABS or epoxy resins at room temperature, they may affect the resins at higher
or lower temperatures. Check the chemicals carefully in advance.
RFID System
User's Manual
Section 7 Chemical Resistance of the Antennas, and Tags
ƒ Chemicals That Do Not Affect PPS Resin or Epoxy Resin
179
Section 7
Chemical Resistance
„ Applicable Model
V680-D8KF68/D32KF68
Chemicals that affect Tags are shown below.
Polybutylene terephthalate (PBT) resin is used for case material and epoxy resin for filling material. Refer to
the following lists and do not use chemicals that affect PBT and epoxy resins.
Tags cannot be used in applications with explosion-proof specifications.
ƒ Chemicals That Cause Deformations, Cracks, Etc.
PBT resin
Epoxy resin
Acetone, trichloroethylene, ethylene dichloride, sodium Aqua regia, chromic acid, sulfuric acid (90% RT), nitric
hydroxide, and other alkaline substances
acid (60% RT), liquid ammonia, acetone, methylene
chloride, phenol
ƒ Chemicals That May Cause Discoloration, Swelling, Etc.
PBT resin
Hydrochloric acid (10% RT), acetic acid (5% RT), benzene
Epoxy resin
Sulfuric acid (10% RT), nitric acid (10% RT), concentrated hydrochloric acid, acetic acid (50% RT), nitric
acid, calcium hydroxide, benzene, cresol, alcohol,
microhexanon, toluene, xylene, benzene, grease
ƒ Chemicals That Do Not Affect PPS Resin or Epoxy Resin
Section 7 Chemical Resistance of the Antennas, and Tags
180
PBT resin
Epoxy resin
Nitric acid (30% RT), concentrated hydrochloric acid,
acetic acid, ethyl acetate (100% RT), potassium permaganate (5% RH), ethyl acetate, carbon tetrachloride,
methanol, ethanol, gasoline
Ammonia, hydrochloric acid (10% RT), calcium hydroxide, petroleum, gasoline, Yushiroken S50, Chemi-cool
Z, Velocity No. 3, Yushiroken EEE-30Y, methyl ethyl
ketone, sodium hydroxide
Note: The above results are from tests conducted at room temperature (23°C). Even if the chemicals
do not affect the PPS or epoxy resins at room temperature, they may affect the resins at higher or lower
temperatures. Check the chemicals carefully in advance.
RFID System
User's Manual
Section 7
Chemical Resistance
Degree of Protection
Ingress protection degrees (IP-@@) are determined by the following tests. Be sure to check the sealing capability under the actual operating environment and conditions before actual use.
IP indicates the ingress protection symbol.
„ IEC (International Electrotechnical Commission) Standards
IEC 60529: 1989-11
(A) First Digit: Degree of Protection from Solid Materials
Degree
Degree
No protection
50 mm dia.
Protects against penetration of any solid object such as a hand that is 50 mm or more in diameter.
12.5 mm dia.
Section 7 Degree of Protection
2.5 mm
Protects against penetration of any solid object, such as a finger, that is 12.5 mm or more in diameter.
Protects against penetration of any solid object, such as a wire, that is 2.5 mm or more in diameter.
Protects against penetration of any solid object, such as a wire, that is 1 mm or more in diameter.
1 mm
Protects against penetration of dust of a quantity that may cause malfunction or obstruct the safe
operation of the product.
Protects against penetration of all dust.
(B) Second Digit: Degree of Protection Against Water
Degree
Protection
Test method (with pure water)
No protection
Not protected against water.
No test
Protection against water
drops
Protects against vertical drops Water is dropped vertically towards the product from
of water towards the product. the test machine for 10 min.
200 mm
182
RFID System
User's Manual
Protection against water
drop
Protects against drops of
Water is dropped for 2.5 min each (i.e., 10 min in total)
water approaching at a maxi- towards the product inclined 15° to the left, right, back,
mum angle of 15° to the left, and front from the test machine.
right, back, and front from ver200 mm
tical towards the product.
15˚
Section 7
Chemical Resistance
Degree
Protection
Protection against sprinkled water
Protection against water
spray
Protection against water jet
spray
Test method (with pure water)
Protects against sprinkled
water approaching at a maximum angle of 60° from vertical towards the product.
Water is sprinkled for 10 min at a maximum angle of
60° to the left and right from vertical from the test
machine.
Protects against water spray
approaching at any angle
towards the product.
Water is sprayed at any angle towards the product for
10 min from the test machine.
Protects against water jet
spray approaching at any
angle towards the product.
Water is jet sprayed at any angle towards the product
for 1 min per square meter for at least 3 min in total
from the test machine.
Water rate is 0.07
liter/min per hole.
Water rate is 0.07
liter/min per hole.
12.5 liter/min
2.5 to 3 m
Discharging nozzle: 6.3 dia.
Protection against high
pressure water jet spray
Protects against high-presWater is jet sprayed at any angle towards the product
sure water jet spray approach- for 1 min per square meter for at least 3 min in total
ing at any angle towards the
from the test machine.
100 liter/min
2.5 to 3 m
product.
Discharging nozzle: 6.3 dia.
Protection underwater
(See Note)
Resists the penetration of
water when the product is
placed underwater at specified pressure for a specified
time.
The product is placed 1 m deep in water (if the product
is 850 mm max. in height) for 30 min.
Can be used continuously
underwater.
The test method is determined by the manufacturer and
user.
1m
„ Oil resistance (OMRON in-house standard)
Protection
Oil-resistant
No adverse affect from oil drops or oil spray approaching from any direction.
Oil-proof
Protects against penetration of oil drops or oil spray approaching from any direction.
Section 7 Degree of Protection
Protection underwater
Note: This OMRON in-house standard confirms resistance to cutting and other oils. It is equivalent to the
former JEM standard.
RFID System
User's Manual
183
Revision History
A manual revision code appears as a suffix to the catalog number at the bottom of the front and rear pages.
Cat. No.: Z248-E1-04
Revision code
184
Revision code
Date
01
October 2006
02
May 2007
Added items for V680-D8KF68/-D32KF68 ID Tags.
03
July 2007
Added items for V680-A81, V680-HS65 Antenna, and the overseas regulations
and standards.
03A
September 2007
Added information on metal on back surface of the V680-HS65, corrected Tag
specifications, and made other minor corrections.
04
December 2007
Added item for V680-HS51 Antenna, the overseas regulations and standards, ,
and made other minor corrections.
RFID System
User's Manual
Revised contents
Original production
OMRON Corporation
Industrial Automation Company
Sensing Devices Division H.Q.
Industrial Sensors Division
Shiokoji Horikawa, Shimogyo-ku,
Kyoto, 600-8530 Japan
Tel: (81)75-344-7022/Fax: (81)75-344-7107
Regional Headquarters
OMRON EUROPE B.V.
Sensor Business Unit
Carl-Benz-Str. 4, D-71154 Nufringen,
Germany
Tel: (49) 7032-811-0/Fax: (49) 7032-811-199
OMRON ELECTRONICS LLC
One Commerce Drive Schaumburg,
IL 60173-5302 U.S.A.
Tel: (1) 847-843-7900/Fax: (1) 847-843-7787
OMRON ASIA PACIFIC PTE. LTD.
No. 438A Alexandra Road # 05-05/08 (Lobby 2),
Alexandra Technopark, Singapore 119967
Tel: (65) 6835-3011/Fax: (65) 6835-2711
OMRON (CHINA) CO., LTD.
Room 2211, Bank of China Tower,
200 Yin Cheng Zhong Road,
Pu Dong New Area, Shanghai, 200120, China
Tel: (86) 21-5037-2222/Fax: (86) 21-5037-2200
In the interest of product improvement, specifications are
subject to change without notice.
Authorized Distributor:
Cat. No. Z279-E1-01
Printed in Japan
0308-0.3C (1006)

---

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