EPSONTOYOCOM SG

Crystal ooscillator
scillator
Epson Toyocom
Product Number (please contact us)
Q3321CExxxxxx00
CRYSTAL OSCILLATOR
PROGRAMMABLE
SG - 8002CE series
•Frequency range
: 1 MHz to 125 MHz
•Supply voltage
: 3.3 V or 5.0 V
•Function
: Output enable(OE) or Standby( ST )
•Thickness
: 1.05 mm Typ.
•Short mass production lead time by PLL technology.
•SG-Writer available to purchase.
Please contact Epson Toyocom or local sales representative.
Actual size
Specifications (characteristics)
Item
f0
Output frequency range
Supply voltage
VCC
Storage
temperature
Operating
temperature
Temperature
range
Specifications *2
PT / ST
PH / SH
1 MHz to 125 MHz
4.5 V to 5.5 V
Symbol
-40 °C to +125 °C
T_stg
T_use
Frequency tolerance
f_tol
Current consumption
Disable current
Standby current
ICC
I_dis
I_std
Symmetry *1
SYM
High output voltage
Low output voltage
Output load condition
(TTL) *1
Output load condition
(CMOS) *1
Output enable /
disable input voltage
VOH
VOL
L_TTL
PC / SC
1 MHz to125 MHz
1 MHz to 66.7 MHz
2.7 V to 3.6 V
Store as bare product after unpacking
-20 °C to +70 °C (-40 °C to +85 °C)
-40 °C to +85 °C
B: ±50 × 10-6 ,C: ±100 × 10-6
M: ±100 × 10-6
40 mA Max.
28 mA Max.
30 mA Max.
16 mA Max.
50 µA Max.
40 % to 60 %
40 % to 60 %
VCC-0.4 V Min.
0.4 V Max.
-
5 TTL Max.
L_CMOS
15 pF Max.
VIH
VIL
2.0 V Min.
0.8 V Max.
70 % VCC Min.
20 % VCC Max.
3 ns Max.
-
4 ns Max.
Remarks
VCC=4.5 V to 5.5 V
VCC=3.0 V to 3.6 V
VCC=2.7 V to 3.6 V
Refer to “Outline specifications” (Frequency range)
-20 °C to +70 °C
-40 °C to +85 °C *3
No load condition, Max. frequency
OE=GND
ST =GND(ST,SH,SC)
CMOS load:50 % VCC level, Max. load condition
TTL load: 1.4 V, Max. load condition
IOH=-16 mA(PT,ST,PH,SH),-8 mA(PC,SC)
IOL =16 mA(PT,ST,PH,SH), 8 mA(PC,SC)
Max. frequency and
Max. Supply voltage
ST
terminal or OE terminal
CMOS load: 20 % VCC to 80 % VCC level
Rise and Fall time *1
tr/ tf
TTL load: 0.4 V to 2.4 V level
Start-up time
t_str
10 ms Max.
Time at minimum supply voltage to be 0 s
+25 °C, VCC=5.0 V/ 3.3 V (PC,SC) First year
±5 × 10-6 / year Max.
Frequency aging
f_aging
*1 Operating temperature (-40 °C to +85 °C), the available frequency, symmetry and output load conditions, please refer to “Outline specifications” page.
External dimensions
(Unit:mm)
3.2 ±0.2
#2
2.4
#2
0.9
#1
Pin map
Pin
Connection
1
OE or ST
2
GND
3
OUT
4
VCC
Note.
OE Pin (PT, PH, PC)
OE pin = "H" or "open" : Specified frequency output.
OE pin = "L" : Output is high impedance.
1.2
#1
#4
#3
1.9
SC181A
(Unit:mm)
2.2
#3
E125.0C
Footprint (Recommended)
0.7 0.9
#4
2.5 ±0.2
.
PLL-PLL connection & Jitter specification, please refer to “Jitter specifications and characteristics chart” page.
PT / ST and PH / SH for “M” tolerance will be available up to 27 MHz. Checking possible by the Frequency checking program.
1.05 ±0.15
*2
*3
1.4
ST pin (ST, SH, SC)
ST pin - "H" or "open" : Specified frequency output.
ST pin - "L" : Output is low level (weak pull - down), oscillation stops.
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Crystal ooscillator
scillator
Epson Toyocom
SG-8002 Series_ Outline of specifications
Item
Current
Consump
tion
Model
PH 30 mA
SG-8002LB
(SOJ 4-pin)
SH
PC 28 mA
Ma x.
SC
SG-8002CA
(SON)
SG-8002JA
(SOJ 4-pin)
SG-8002DB
(DIP 14-pin)
SG-8002DC
(DIP 8-pin)
Ma x.
Supply
Voltage
PH
Ma x.
3.0 ns Max.
40 % to 60 %(50 % V CC, L_CMOS=15 pF,
(20 % V CC to 80 % V CC,L_CMOS=Max.)
3.0 V to 3.6 V
15 pF
(2.7 V to 3.6 V)
3.0 ns Max.
(20 % V CC to 80 % V CC,
L_CMOS=Max.)
5 TTL+15 pF (f0≤125 MHz/-20 °C to+70 °C)
25 pF (f0≤66.7 MHz/-20 °C to+70 °C)
5 TTL+15 pF (f0≤40 MHz/-40 °C to +85 °C)
15 pF(f0≤55 MHz/-40 °C to +85 °C)
4.5 V to 5.5 V
25 pF
50 pF
15 pF
25 pF
SH
PC 28 mA 3.0 V to 3.6 V
Ma x.
SC
(2.7 V to 3.6 V)
PT
ST 45 mA
SG-8002JC
(SOJ 4-pin)
PH
Ma x.
28 mA
SC Ma x.
3.0 V to 3.6 V
(2.7 V to 3.6 V)
PT
ST
SG-8002JF
(SOJ 4-pin)
45 mA
PH Ma x.
28 mA
Ma x.
SC
ST 40 mA
SG-8002CE
(SON)
PH
Ma x.
SH
PC 28 mA
SC Ma x.
f0≤80 MHz/-40 °C to+85 °C)
45 % to 55 %(50 % V CC, L_CMOS=15 pF, V CC=3.0 V to 3.6 V,
40 % to 60 %(50 % V CC, L_CMOS=15 pF, V CC=3.0 V to 3.6 V,
↑
(50 % V CC, L_CMOS=15 pF, V CC=2.7 V to 3.6 V,
45 % to 55 %(1.4 V, L_TTL=5 TTL+15 pF, f0≤66.7 MHz/-20 °C to +70 °C)
2.0 ns Max.
↑
(1.4 V, L_TTL=5 TTL+15 pF, f0≤40.0 MHz/-40 °C to +85 °C)
(0.8 V to 2.0 V,L_CMOS or L_TTL=Max.)
40 % to 60 %(1.4 V, L_TTL=5 TTL+15 pF, f0≤125 MHz/-20 °C to +70 °C)
4.0 ns Max.
↑
(1.4 V, L_CMOS=25 pF, f0≤66.7 MHz/-20 °C to +70 °C)
(0.4 V to 2.4 V,L_CMOS or L_TTL=Max.)
↑
(1.4 V, L_CMOS=15 pF, f0≤55.0 MHz/-40 °C to +85 °C)
3.0 ns Max.
(20 % V CC to 80
4.0 ns Max.
(20 % V CC to 80
45
↑
% V CC,L_CMOS≤25)
40
↑
% V CC,L_CMOS=Max.)
↑
45
% V CC,L_CMOS≤15)
40
↑
% V CC,L_CMOS=Max.)
% to 55 %(50
(50
% to 60 %(50
(50
(50
% to 55 %(50
% to 60 %(50
(50
% V CC, L_CMOS=25 pF, f0≤66.7 MHz/-20 °C to +70 °C)
% V CC, L_MOS=25 pF, f0≤40.0 MHz/-40 °C to +85 °C)
% V CC, L_CMOS=25 pF, f0≤125 MHz/-20 °C to +70 °C)
% V CC, L_CMOS=50 pF, f0≤66.7 MHz/-20 °C to+70 °C)
% V CC, L_CMOS=15 pF, f0≤55.0 MHz/-40 °C to +85 °C)
% V CC, L_CMOS=30 pF, V CC=3.0 V to 3.6 V, f0≤40 MHz)
% V CC, L_CMOS=15 pF, V CC=3.0 V to 3.6 V, f0≤125 MHz)
% V CC, L_CMOS=15 pF, V CC=2.7 V to 3.6 V, f0≤66.7 MHz)
5TTL + 15 pF (f0≤90 MHz/-20 to+70 °C)
15 pF (f0≤125 MHz/-20 °C to +70 °C)
25 pF (f0≤66.7 MHz/-20 °C to+70 °C)
2.0 ns Max.
(0.8 V to 2.0 V,L_CMOS or L_TTL=Max.)
4.0 ns Max.
(0.4 V to 2.4 V,L_CMOS or L_TTL=Max.)
45 % to 55 %(1.4 V,L_TTL=5 TTL+15 pF, f0≤66.7 MHz/-20 °C to+70 °C)
40 % to 60 %(1.4 V,L_TTL=5 TTL+15 pF, f0≤90.0 MHz/-20 °C to+70 °C)
↑
(1.4 V,L_CMOS=25 pF, f0≤66.7 MHz/-20 °C to +70 °C)
↑
(1.4 V,L_CMOS=15 pF, f0≤125 MHz/-20 °C to +70 °C)
15 pF (f0≤125 MHz/-20 °C to+70 °C)
25 pF (f0≤90 MHz/-20 °C to+70 °C)
50 pF (f0≤66.7 MHz/-20 °C to+70 °C)
3.0 ns Max.
(20 % V CC to 80 % V CC,L_CMOS≤25)
4.0 ns Max.
(20 % V CC to 80 % V CC,L_CMOS=Max.)
45 % to 55 %(50
40 % to 60 %(50
↑
(50
↑
(50
15 pF (f0≤66.7 MHz/2.7 to 3.6 V)
15 pF (f0≤125 MHz/3.0 to 3.6 V)
30 pF (f0≤40 MHz/3.0 to3.6 V)
3.0 ns Max.
45 % to 55 %(50 % V CC, L_CMOS=30 pF, V CC=3.0 V to 3.6 V,
(20 % V CC to 80 % V CC ,L_CMOS≤15)
40 % to 60 %(50 % V CC, L_CMOS=15 pF, V CC=3.0 V to 3.6 V,
4.0 ns Max.
↑
(50 % V CC, L_CMOS=15 pF, V CC=2.7 V to 3.6 V,
(20 % V CC to 80 % V CC ,L_CMOS=Max.)
15 pF (f0≤125 MHz/-20 °C to +70 °C )
25 pF (f0≤66.7 MHz/-20 °C to+70 °C)
5TTL + 15 pF (f0≤ 90 MHz/-20 °C to +70 °C)
15 pF (f0≤40 MHz/-40 °C to +85 °C)
45
2.0 ns Max.
40
(0.8 V to 2.0 V,L_CMOS≤25)
↑
4.0 ns Max.
↑
(0.4 V to 2.4 V,L_CMOS or L_TTL=Max.)
↑
45
3.0 ns Max.
40
(20 % V CC to 80 % V CC,L_CMOS≤25)
↑
4.0 ns Max.
↑
(20 % V CC to 80 % V CC,L_CMOS=Max.)
↑
(f0≤125 MHz/-20 °C to+70 °C )
(f0≤90 MHz/-20 °C to+70 °C)
(f0≤50 MHz/-20 °C to+70 °C)
(f0≤40 MHz/-40 °C to+85 °C)
15 pF(f0≤66.7 MHz/2.7 to 3.6 V)
3.0 V to 3.6 V
15 pF(f0≤125 MHz/3.0 to 3.6 V)
(2.7 V to 3.6 V)
30 pF(f0≤40 MHz/3.0 to 3.6 V)
5 TTL+15 pF (f0≤125 MHz/-20 °C to + 70 °C)
5 TTL+15 pF (f0≤27 MHz/-40 °C to +85 °C )
4.5 V to 5.5 V
15 pF (f0≤125 MHz/-20 °C to +70 °C )
25 pF (f0≤100 MHz/-20 °C to+70 °C )
25 pF (f0≤27 MHz/-40 °C to +85 °C )
3.0 V to 3.6 V 15 pF (f0≤66.7 MHz/2.7 to 3.6 V)
(2.7 V to 3.6 V) 15 pF (f0≤125 MHz/3.0 to 3.6 V)
3.0 ns Max.
(20 % V CC to 80 % V CC,L_CMOS≤15)
4.0 ns Max.
(20 % V CC to 80 % V CC,L_CMOS=Max.)
2.0 ns Max.
(0.8 V to 2.0 V,L_TTL=Max.)
4.0 ns Max.
(0.4 V to 2.4 V,L_TTL=Max.)
% V CC, L_CMOS=25 pF, f0≤66.7 MHz/-20 °C to +70 °C)
% V CC, L_CMOS=15 pF, f0≤125 MHz/-20 °C to +70 °C)
% V CC, L_CMOS=25 pF, f0≤90 MHz/-20 °C to +70 °C)
% V CC, L_CMOS=50 pF, f0≤50 MHz/-20 °C to +70 °C)
% to 55 %(1.4 V, L_TTL=5 TTL+15 pF, f0≤66.7 MHz/-20 °C to+70 °C)
% to 60 %(1.4 V, L_TTL=5 TTL+15 pF, f0≤90 MHz/-20 °C to +70 °C)
(1.4 V, L_CMOS=25 pF, f0≤66.7 MHz/-20 °C to +70 °C)
(1.4 V, L_CMOS=15 pF, f0≤125 MHz/-20 °C to +70 °C)
(1.4 V, L_CMOS=15 pF, f0≤40 MHz/-40 °C to +85 °C)
% to 55 %(50 % V CC, L_CMOS=25 pF, f0≤66.7 MHz/-20 °C to +70 °C)
% to 60 %(50 % V CC, L_CMOS=25 pF, f0≤90.0 MHz/-20 °C to +70 °C)
(50 % V CC, L_CMOS=50 pF, f0≤50.0 MHz/-20 °C to+70 °C)
(50 % V CC, L_CMOS=15 pF, f0≤125 MHz/-20 °C to+70 °C)
(50 % V CC, L_CMOS=15 pF, f0≤40 MHz/-40 °C to+85 °C)
45 % to 55 %(1.4 V, L_TTL=5 TTL+15 pF, f0≤66.7 MHz/-20 °C to +70 °C)
↑
(1.4 V, L_TTL=5 TTL+15 pF, f0≤27.0 MHz/-40 °C to + 85 °C)
40 % to 60 %(1.4 V, L_TTL=5 TTL+15 pF, f0≤125 MHz/-20 °C to +70 °C)
% to 55 %(50
(50
% to 60 %(50
% to 55 %(50
% to 60 %(50
(50
% V CC, L_CMOS=25 pF, f0≤66.7 MHz/-20 °C to +70 °C)
% V CC, L_CMOS=25 pF, f0≤27.0 MHz/-40 °C to + 85 °C)
% V CC, L_CMOS=15 pF, f0≤125 MHz/-20 °C to +70 °C)
% V CC, L_CMOS=15 pF, V CC=3.0 V to 3.6 V, f0≤40 MHz)
% V CC, L_CMOS=15 pF, V CC=3.0 V to 3.6 V, f0≤125 MHz)
% V CC, L_CMOS=15 pF, V CC=2.7 V to 3.6 V, f0≤66.7 MHz)
►TABLE OF FREQUENCY RANGE
Model
SG-8002CE
Supply voltage
PT/ ST
PH/ SH
4.5 V to 5.5 V
B,C
M
PC/SC
3.0 V to 3.6 V
(2.7 V to 3.6 V)
B,C,M
PH/ SH
5.0 V±0.5 V
PC/ SC
3.3 V±0.3 V
B,C,M,L
PT/ ST
PH/ SH
4.5 V to 5.5 V
B,C
M
PC
SC
3.0 V to 3.6 V
(2.7 V to 3.6 V)
B,C,M
PT/ ST
PH/ SH
4.5 V to 5.5 V
PC/ SC
3.0 V to 3.6 V
(2.7 V to 3.6 V)
PT/ ST
PH/ SH
4.5 V to 5.5 V
PC/ SC
3.0 V to 3.6 V
(2.7 V to 3.6 V)
SG-8002LB
SG-8002JF
SG-8002CA
SG-8002JA
SG-8002DB
SG-8002DC
SG-8002JC
Frequency tolerance
Frequency
1 MHz
OperatingTemperature
1.0 MH z
1.0 MH z
125 MHz
125 MH z
27 MH z
125 MH z
*2.7 V to 3.6 V : 1.0 MHz to 66.7 MHz
B,C
1.0 MH z
1.0 MH z
1.0 MH z
80 MH z
27 MH z
125 MH z
*2.7 V to 3.6 V : 1.0 MHz to 66.7 MHz
1.0 MH z
1.0 MH z
125 MH z
40 MH z
1.0 MH z
125 MH z
*2.7 V to 3.6 V : 1.0 MHz to 66.7 MHz
B,C
1.0 MH z
M
1.0 MH z
1.0 MH z
B
C
B
C
100 MHz
1.0 MH z
M,L
B,C,M
50 MHz
125 MH z
55 MH z
125 MH z
*2.7 V to 3.6 V : 1.0 MHz to 66.7 MHz
1.0 MH z
125 MH z
1.0 MH z
125 MH z
*2.7 V to 3.6 V : 1.0 MHz to 66.7 MHz
Frequency tolerance : B:±50×10-6(-20 °C to +70 °C ), C:±100×10-6 (-20 °C to +70 °C ), M:±100×10-6 (-40 °C to +85 °C ), L:±50×10-6 (-40 °C to +85 °C )
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ST
OE
ST
OE
ST
OE
ST
OE
ST
OE
ST
f0≤40 MHz) OE
f0≤125 MHz)
f0≤66.7 MHz) ST
45 % to 55 %(50 % V CC, CL=30 pF, V CC=3.0 V to 3.6 V, f0≤40 MHz)
40 % to 60 %(50 % V CC, CL=15 pF, V CC=3.0 V to 3.6 V, f0≤125 MHz)
↑
(50 % V CC, CL=15 pF, V CC=2.7 V to 3.6 V, f0≤66.7 MHz)
45
3.0 ns Max.
↑
(20 % V CC to 80 % V CC ,L_CMOS=Max.)
40
3.0 ns Max.
45
(20 % V CC to 80 % V CC,
40
L_CMOS=Max.)
↑
OE
f0≤40 MHz) OE
f0≤125 MHz)
f0≤66.7 MHz) ST
15 pF (f0≤66.7 MHz/2.7 to 3.6 V)
15 pF (f0≤125 MHz/3.0 to 3.6 V)
30 pF (f0≤40 MHz/3.0 to 3.6 V)
15 pF
25 pF
50 pF
15 pF
PT
Function
3.0 ns Max.
(20 % V CC to 80
4.0 ns Max.
(20 % V CC to 80
4.5 V to 5.5 V
SH
PC
(f0≤125 MHz/-20 °C to+70 °C)
(f0≤66.7 MHz/-20 °C to+70 °C)
(f0≤55 MHz/-40 °C to+85 °C)
(f0≤40 MHz/-40 °C to+85 °C)
4.5 V to 5.5 V
SH
PC
Symmetry
4.5 V to 5.5 V 15 pF
PT
ST 45 mA
Output rise time
Output fall time
Output load condition
OE
ST
OE
ST
OE
ST
OE
ST
OE
ST
OE
ST
Crystal oscillator
Epson Toyocom
SG / HG-8002 series_ Jitter specifications and characteristics chart
■PLL-PLL connection
Because we use a PLL technology, there are a few cases that the jitter value will increase when SG-8002 is connected to another
PLL-oscillator.
In our experience, we are unable to recommend these products for the applications such as telecom carrier use or analog video
clock use. Please be careful checking in advance for these application (Jitter specification is Max.250 ps/CL=15 pF)
Jitter Specifications
Model
Supply
Voltage
Jitter Item
Specifications
5.0 V ±0.5 V
SC / PC
3.3 V ±0.3 V
33 MHz ≤ f 0 ≤ 125 MHz, L_CMOS=15 pF
1.0 MHz ≤ f 0 < 33 MHz, L_CMOS=15 pF
33 MHz ≤ f 0 ≤ 125 MHz, L_CMOS=15 pF
1.0 MHz ≤ f 0 < 33 MHz, L_CMOS=15 pF
1.0 MHz ≤ f 0 ≤ 125 MHz, L_CMOS=15 pF
1.0 MHz ≤ f 0 ≤ 125 MHz, L_CMOS=15 pF
150 ps Max.
200 ps Max.
200 ps Max.
250 ps Max.
200 ps Max.
250 ps Max.
Cycle to cycle
PT / PH
ST / SH
Remarks
Peak to peak
Cycle to cycle
Peak to peak
■Remarks on noise management for power supply line
We do not recommend inserting filters or other devices in the power supply line as the counter measure of EMI noise reduction.
This device insertion might cause high-frequency impedance high in the power supply line and it affects oscillator stable drive.
When this measure is required, please evaluate circuitry and device behavior in the circuit and verify that it will not affect oscillation.
Start up time (0 % VCC to 90 % VCC) of power source should be more than 150 µs.
■SG-8002 series Characteristics chart
10
0
20
40 60 80 100 120 140
Frequency(MHz)
Symmetry (%)
I_dis (mA)
30
20
10
20
Symmetry (%)
20
10
Additional Value (mA)
2.5
3.0 3.5 4.0 4.5 5.0
VCC (V)
Output load vs. Additional Current consumption
20
V CC =5.0 V
18
25 pF
16
14
50 pF
12
15 pF
10
30 pF
8
6
4
2
0
20
40 60 80 100 120 140
Frequency(MHz)
2.7 V
1.0
10 15 20 25 30 35 40 45
50
15 pF
45
20
40 60 80 100 120 140
Frequency(MHz)
4.5 V
5.0 V
5.5 V
3.0 V
3.3 V
3.6 V
2.5
2.0 2.7 V
1.5
1.0
10 15 20 25 30 35 40 45
Symmetry 5.0V TTL Level
Load capacitance (pF)
55
2.0
25 pF
50 55
Load capacitance (pF)
Output Fall time (CMOS Level)
30 pF
50 55
Output Rise time (TTL Level)
15 pF
50
45
40
0
5.5 6.0
20
40 60 80 100 120 140
Frequency(MHz)
2.0
1.8
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
1.0
10
2.5
2.0
I_dis(Va)=Times(Va)×I_dis(5.0V)
I_std(Va)=Times(Va)×I_std(5.0V)
3.0
3.5
4.0
4.5
5.0
5.5
6.0
VCC (V)
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4.5 V
5.0 V
5.5 V
1.5
Voltage coefficient [ VCC vs I_dis,I_std ]
Times
I_std (µA)
30
40 60 80 100 120 140
Frequency(MHz)
4.5 V
5.0 V
5.5 V
3.0 V
3.3 V
3.6 V
1.5
3.0
55
60
40
20
2.0
Symmetry 3.3 V CMOS Level
40
0
40 60 80 100 120 140
Frequency(MHz)
Stand-by Current
50
45
60
40
0
50 pF
40
0
Disable Current (VCC=5.0V)
50
15 pF
50
Output Rise time (CMOS Level)
2.5
Rise time (ns)
20
25 pF
55
Fall Time (ns)
30
3.0
Fall Time (ns)
Symmetry (%)
I CC(mA)
40
Symmetry 5.0 V CMOS Level
60
Rise Time (ns)
Current consumption (VCC=5.0V)
50
1.5
15
20
25
Load capacitance (pF)
30
Output Fall time (TTL Level)
4.5 V
5.0 V
5.5 V
1.0
10
15
20
25
Load capacitance (pF)
30
“QMEMS” EPSON TOYOCOM
In order to meet customer needs in a rapidly advancing digital,
broadband and ubiquitous society, we are committed to offering products
that are one step ahead of the market and a rank above the rest in quality.
To achieve our goals, we follow a “3D (three device) strategy” designed to
drive both horizontal and vertical growth. We will to grow our three device
categories of “Timing Devices”, ”Sensing Devices” and “Optical Devices”,
and expand vertical growth through a combination of products from these
categories.
A Quartz MEMS is any high added value quartz device that exploits the
characteristics of quartz crystal material but that is produced using MEMS
(micro-electro-mechanical system) processing technology.
Market needs are advancing faster than previously imagined toward
smaller, more stable crystal products, but we will stay ahead of the curve
by rolling out products that exceed market speed and quality
requirements. We want to further accelerate the 3D strategy by QMEMS.
Quartz devices have become crucial in the network environment where
products are increasingly intended for broadband, ubiquitous applications
and where various types of terminals can transfer information almost
immediately via LAN and WAN on a global scale. Epson Toyocom
Corporation addresses every single aspect within a network environment.
The new corporation offers “Digital Convergence” solutions to problems
arising with products for consumer use, such as, core network systems
and automotive systems.
PROMOTION OF ENVIRONMENTAL MANAGEMENT SYSTEM
CONFORMING TO INTERNATIONAL STANDARDS
At Epson Toyocom, all environmental initiatives operate under
ISO 14000 is an international standard for environmental management
the Plan-Do-Check-Action(PDCA) cycle designed to achieve
that was established by the International Standards Organization in 1996
continuous improvements. The environmental management
against the background of growing concern regarding global warming,
system (EMS) operates under the ISO 14001 environmental
destruction of the ozone layer and global deforestation
management standard.
All of our major manufacturing and non-manufacturing sites,in Japan and overseas, completed the acquisition of ISO 14001 certification.
In the future, new group companies will be expected to acquire the certification around the third year of operations.
WORKING FOR HIGH QUALITY
In order provide high quality and reliable products and services than meet customer needs,
Epson Toyocom made early efforts towards obtaining ISO9000 series certification and has acquired ISO9001 for all business establishments in Japan
and abroad. We have also acquired ISO/TS 16949 certification that is requested strongly by major automotive manufacturers as standard.
QS-9000 is an enhanced standard for quality assurance systems
formulated by leading U.S. automobile manufacturers based on the
international ISO 9000 series.
ISO/TS 16949 is a global standard based on QS-9000, a severe standard
corresponding to the requirements from the automobile industry.
►Explanation of the mark that are using it for the catalog
►Pb free.
►Complies with EU RoHS directive.
►Pb free terminal designed. Contains Pb in products exempted by RoHS directive.
(Contains Pb in sealing glass, high melting temperature type solder or other.)
►Complies with EU RoHS directive.
►The products have been designed for high reliability applications such as Automotive.
Notice
●This material is subject to change without notice.
●Any part of this material may not be reproduced or duplicated in any form or any means without the written permission of Epson Toyocom.
●The information, applied circuitry, programming, usage, etc., written in this material is intended for reference only. Epson Toyocom does not
assume any liability for the occurrence of infringing on any patent or copyright of a third party. This material does not authorize the licensing for
any patent or intellectual copyrights.
●Any product described in this material may contain technology or the subject relating to strategic products under the control of the Foreign
Exchange and Foreign Trade Law of Japan and may require an export license from the Ministry of International Trade and Industry or other
approval from another government agency.
●You are requested not to use the products (and any technical information furnished, if any) for the development and/or manufacture of weapon
of mass destruction or for other military purposes. You are also requested that you would not make the products available to any third party
who may use the products for such prohibited purposes.
●These products are intended for general use in electronic equipment. When using them in specific applications that require extremely high
reliability, such as the applications stated below, you must obtain permission from Epson Toyocom in advance.
/ Space equipment (artificial satellites, rockets, etc.) / Transportation vehicles and related (automobiles, aircraft, trains, vessels, etc.)
/ Medical instruments to sustain life / Submarine transmitters / Power stations and related / Fire work equipment and security equipment
/ traffic control equipment / and others requiring equivalent reliability.
● In this new crystal master for Epson Toyocom, product codes and markings will remain as previously identified prior to the merger.
Due to the on-going strategy of gradual unification of part numbers, please review product codes and markings, as they will change during the
course of the coming months.
We apologize for the inconvenience, but we will eventually have a unified part numbering system for Epson Toyocom that will be user friendly.