“PGS” Graphite Sheets
“PGS” Graphite Sheets
Type:
EYG
“PGS (Pyrolytic Graphite Sheet)” is a ther mal
interface material which is very thin, synthetically
made, has high thermal conductivity, and is made
from a higly oriented graphite polymer film. It
is ideal for providing thermal management/heat-
sinking in limited spaces or to provide supplemental
heat-sinking in addition to conventional means.
This material is flexible and can be cut into
customizable shapes.
"SSM(Semi-Sealing Material)" is the product which is
copounding PGS Graphite sheet and High thermal
conductive Elastomer resin. It has a function to absorb
heat by resin and release the heat by utilizing high
thermal conductivity of PGS Graphite sheet. It also
enables taking better attachment to the component
which has different height on the electronic board,
reducing stress to the electronic board.
Features
●
Excellent
thermal conductivity : 700 to 1950 W/(m·K)
(2 to 5 times as high as copper, 3 to 8 time as high as aluminum)
●
Lightweight: Specific gravity : 0.85 to 2.13 g/cm
3
(1/4 to 1/10 of copper, 1/1.3 to 1/3 of aluminum in density)
●
Flexible and easy to be cut or trimmed. (withstands repeated bending)
●
Low thermal resistance
●
Low heat resistance with flexible Graphite sheet (SSM)
●
Low elasticity and easy to keep the product's shape after attaching (SSM)
●
Siloxane Free(SSM)
●
High dielectric voltage : 17 kVac/mm (SSM)
●
RoHS compliant
Recommended applications
●
Smart phones, Mobile phones, DSC, DVC, Tablet PCs, PCs and peripherals, LED
●
Semiconductor manufacturing equipment (Sputtering, Dry etching, Steppers)
●
Optical communications equipment
Devices
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
07 Nov. 2015
“PGS” Graphite Sheets
Explanation of Part Numbers
●
PGS
only (EYGS½½½½½½)
1
2
3
4
5
6
7
8
9
10
E
Y
Product Code
G
S
Style
S
0
9
1
2
1
0
PGS only
0912
1218
1823
Dimension
90 mm
×
115 mm
115 mm
×
180 mm
180 mm
×
230 mm
PGS thickness
½
100 μm
10
70 μm
07
50 μm
05
40 μm
04
25 μm
03
½
PGS thickness of 17 μm, 10 μm does not
support as single item.
●
Taping
(EYGA½½½½½½½½)
1
2
3
4
5
6
7
8
9
10
11
12
E
Y
Product Code
G
A
Style
A
Taping
0
9
1
2
1
0
D
Suffix
M
Dimension
½½
0912
90 mm
×
115 mm
1218 115 mm
×
180 mm
½½
Please contact us for other dimensions other
than those above.
PGS thickness
10 100 μm
07
70 μm
05
50 μm
04
40 μm
03
25 μm
02
17 μm
01
10 μm
A
M
F
PA
PM
DM
DF
V
RV
KV
Lamination type
½
Please refer to
Composition
example.
●
Thermally
conductive elastomer processing (EYGE½½½½½½½½)
2
3
4
5
6
7
8
9
10
11
12
1
E
Y
Product Code
G
E
0
9
1
2
X
B
6
D
Style
E
Elastomer
processing
Dimension
½½
0912 90 mm
×
115 mm
SSM type
½½
Please contact us for other dimensions other
than those above.
PGS thickness
A
100 μm
B
70 μm
C
50 μm
G
40 μm
D
25 μm
E
17 μm
F
10 μm
Elastomer thickness
5
0.5 mm
6
1.0 mm
7
1.5 mm
8
2.0 mm
9
3.0 mm
Q
D
P
F
M
A
Tape thickness
PET tape 8 μm
PET tape 10 μm
PET tape 30 μm
Acrylic adhesive tape 6 μm
Acrylic adhesive tape 10 μm
Acrylic adhesive tape 30 μm
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
07 Nov. 2015
“PGS” Graphite Sheets
Characteristics of PGS Graphite Sheets
Thickness
Density
Thermal conductivity a-b plane
Electrical conductivity
Extensional strength
a-b plane
Expansion coefficient
c axis
½
Heat resistance
Bending(angle 180,R5)
Thickness
Density
Thermal conductivity a-b plane
Electrical conductivity
Extensional strength
a-b plane
Expansion coefficient
c axis
½
Heat resistance
Bending(angle 180,R5)
100 μm
0.10±0.03 mm
0.85 g/cm
3
700 W/(m·K)
10000 S/cm
20.0 MPa
9.3×10
-7
1/K
3.2×10
-5
1/K
70 μm
50 μm
0.07±0.015 mm
0.050±0 .015 mm
3
1.21 g/cm
1.70 g/cm
3
1000 W/(m·K)
1300 W/(m·K)
10000 S/cm
10000 S/cm
20.0 MPa
20.0 MPa
-7
9.3×10 1/K
9.3×10
-7
1/K
3.2×10
-5
1/K
3.2×10
-5
1/K
400 °C
10000 cycles
17 μm
0.017±0 .005 mm
2.10 g/cm
3
1850 W/(m·K)
20000 S/cm
40.0 MPa
9.3×10
-7
1/K
3.2×10
-5
1/K
400 °C
10000 cycles
10 μm
0.010±0 .002 mm
2.13 g/cm
3
1950 W/(m·K)
20000 S/cm
40.0 MPa
9.3×10
-7
1/K
3.2×10
-5
1/K
40 μm
0.040±0 .012 mm
1.80 g/cm
3
1350 W/(m·K)
10000 S/cm
25.0 MPa
9.3×10
-7
1/K
3.2×10
-5
1/K
25 μm
0.025±0 .010 mm
1.90 g/cm
3
1600 W/(m·K)
20000 S/cm
30.0 MPa
9.3×10
-7
1/K
3.2×10
-5
1/K
½
Withstand temperature refers to PGS only.
(Lamination material such as PET tape etc. is not included)
½½
Values are for reference, not guaranteed.
Characteristics of SSM (Elastomer)
Thickness
Specific heat
Density
Thermal conductivity
100 kPa
Thermal
resistance
200 kPa
300 kPa
100 kPa
Compressibility
200 kPa
300 kPa
Resistivity
Withstanding Voltage
Hardness (Type E)
SUS
Adhesive
force
Aluminum
Glass
½
Characteristics refer to Elastomer only.
1 mm
2 mm
1.4 J/(g∙C)
1.88 g/cm
3
1.6 W/(m·K)
3 mm
7.53 (C·cm
2
)/W
6.71 (C·cm
2
)/W
5.90 (C·cm
2
)/W
4.93 %
9.58 %
18.41 %
14.82 (C·cm
2
)/W
13.17 (C·cm
2
)/W
10.73 (C·cm
2
)/W
4.05 %
8.66 %
22.13 %
> 10×10
Ω∙cm
> 17 kVac/mm
39
39 mN/cm
31 mN/cm
38 mN/cm
14
19.48 (C·cm
2
)/W
16.01 (C·cm
2
)/W
11.38 (C·cm
2
)/W
4.43 %
14.04 %
40.49 %
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
07 Nov. 2015
“PGS” Graphite Sheets
Comparison of thermal conductivity (a-b plane)
Diamond
PGS 10 μm
PGS 17 μm
PGS 25 μm
PGS 40 μm
PGS 50 μm
PGS 70 μm
PGS 100 μm
Pure copper
Aluminum
Magnesium alloy
Stainless steel
Heat-conductive sheet
0
200 400
600 800 1000 1200 1400 1600 1800 2000
700 W/(m·K)
1350 W/(m·K)
1300 W/(m·K)
1000 W/(m·K)
1950 W/(m·K)
1850 W/(m·K)
1600 W/(m·K)
Layered structure of PGS
C axis
3.354∼3.356
×10
-8
cm
a-b plane
Thermal conductivity:
2 to 5 times as high as copper,
Specific gravity:
1/10 to 1/4 that of copper
C : 99.9 % above
Coefficient of thermal conductivity (W/(m·k))
Electric field shield performance
a-b plane(KEC method)
140
130
Effect of shield (dB)=–20 log (Vs/V0)
120
110
100
90
Effect of electric field shield
80
70
60
50
40
30
Effect of magnetic field shield
20
10
0
10
100
1000
Frequency (MHz)
Effect of shield (dB)
10000
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
07 Nov. 2015
“PGS” Graphite Sheets
Lamination type/Composition example
●
Standard
series ( PGS 100, 70, 50, 40, 25, 17, 10 μm)
PGS Only
S type
–
–
PGS
Graphite sheet
A-A type
–
Insulative adhesion type 30 μm
PGS
Graphite sheet
Adhesive Type
A -M type
A -F type
–
–
Insulative thin adhesion type 10 μm Insulative thin adhesion type 6 μm
PGS
Graphite sheet
PGS
Graphite sheet
Type
Front face
Rear face
Structure
Acrylic Adhesive
tape 30 μm
Separating paper
· High Thermal Conductivity
High Flexibility
· Low Thermal Resistance
· Available up to 400 °C
· Conductive Material
400 °C
115
×
180 mm
180
×
230 mm (25 μm to)
EYGS121810
100 μm
EYGS121807
70 μm
EYGS121805
50 μm
EYGS121804
40 μm
EYGS121803
25 μm
–
–
–
–
· With insulation material
on one side
· With strong adhesive
tape for putting chassis
· Withstanding Voltage : 2 kV
100 °C
90
×
115 mm
115
×
180 mm
EYGA091210A
130 μm
EYGA091207A
100 μm
EYGA091205A
80 μm
EYGA091204A
70 μm
EYGA091203A
55 μm
EYGA091202A
47 μm
EYGA091201A
40 μm
Acrylic Adhesive
tape 10 μm
Separating paper
· With insulation material on
one side
· Low thermal resistance
comparison with A-A type
· Withstanding Voltage : 1 kV
100 °C
90
×
115 mm
115
×
180 mm
EYGA091210M
110 μm
EYGA091207M
80 μm
EYGA091205M
60 μm
EYGA091204M
50 μm
EYGA091203M
35 μm
EYGA091202M
27 μm
EYGA091201M
20 μm
Acrylic Adhesive
tape 6 μm
Separating paper
· With insulation material on
one side
· Low thermal resistance
comparison with A-A type
100 °C
90
×
115 mm
115
×
180 mm
EYGA091210F
106 μm
EYGA091207F
76 μm
EYGA091205F
56 μm
EYGA091204F
46 μm
EYGA091203F
31 μm
EYGA091202F
23 μm
EYGA091201F
16 μm
Features
Withstand temperature
Standard Size
Maximam size
Part No.
100
μm
Thickness
Part No.
70
μm
Thickness
Part No.
50
μm
Thickness
Part No.
40
μm
Thickness
Part No.
25
μm
Thickness
Part No.
17
μm
Thickness
Part No.
10
μm
Thickness
Type
Front face
Rear face
Laminated type (Insulation & Adhesive)
A-PA type
A-PM type
A-DM type
A-DF type
Polyester tape standard type 30 μm Polyester tape standard type 30 μm Polyester tape thin type 10 μm Polyester tape thin type 10 μm
Insulative adhesion type 30 μm Insulative thin adhesion type 10 μm Insulative thin adhesion type 10 μm Insulative thin adhesion type 6 μm
PGS
Graphite sheet
Polyester(PET) PGS
Polyester(PET) PGS
Polyester(PET)
Graphite sheet tape 30 μm
Graphite sheet tape 10 μm
tape 30 μm
PGS
Polyester(PET)
Graphite sheet tape 10 μm
Structure
Acrylic Adhesive
Acrylic Adhesive
tape 30 μm
tape 10 μm
Separating paper
Separating paper
· With insulation material on
both side
· Withstanding Voltage
PET tape : 4 kV
Adhesive Tape : 2 kV
100 °C
90
×
115 mm
115
×
180 mm
EYGA091210PA
160 μm
EYGA091207PA
130 μm
EYGA091205PA
110 μm
EYGA091204PA
100 μm
EYGA091203PA
85 μm
EYGA091202PA
77 μm
EYGA091201PA
70 μm
· With insulation material on
both side
· Withstanding Voltage
PET tape : 4 kV
Adhesive Tape : 1 kV
100 °C
90
×
115 mm
115
×
180 mm
EYGA091210PM
140 μm
EYGA091207PM
110 μm
EYGA091205PM
90 μm
EYGA091204PM
80 μm
EYGA091203PM
65 μm
EYGA091202PM
57 μm
EYGA091201PM
50 μm
Acrylic Adhesive
tape 10 μm
Separating paper
· With insulation material on
both side
· Withstanding Voltage
PET tape : 1 kV
Adhesive Tape : 1 kV
100 °C
90
×
115 mm
115
×
180 mm
EYGA091210DM
120 μm
EYGA091207DM
90 μm
EYGA091205DM
70 μm
EYGA091204DM
60 μm
EYGA091203DM
45 μm
EYGA091202DM
37 μm
EYGA091201DM
30 μm
Acrylic Adhesive
tape 6 μm
Separating paper
· With insulation material on
both side
· Withstanding Voltage
PET tape : 1 kV
100 °C
90
×
115 mm
115
×
180 mm
EYGA091210DF
116 μm
EYGA091207DF
86 μm
EYGA091205DF
66 μm
EYGA091204DF
56 μm
EYGA091203DF
41 μm
EYGA091202DF
33 μm
EYGA091201DF
26 μm
Features
Withstand temperature
Standard Size
Maximam size
Part No.
100
μm
Thickness
Part No.
70
μm
Thickness
Part No.
50
μm
Thickness
Part No.
40
μm
Thickness
Part No.
25
μm
Thickness
Part No.
17
μm
Thickness
Part No.
10
μm
Thickness
½
Please contact us for other lamination type product.
½½
Withstanding Voltages are for reference, not guaranteed.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
07 Nov. 2015
