Crystal oscillator
CRYSTAL OSCILLATOR
SPXO
SG - 636
series
•Frequency
range
•Supply
voltage
•Function
•Thickness
•Lead(Pb)-free
:
:
:
:
:
2.21675 MHz to 135 MHz
2.5 V / 3.3 V / 5.0 V
Output enable(OE) Standby(
ST
)
2.7 mm Max.
Contains high melting temperature type
Actual size
solder (Pb85 %) exempted by RoHS directive.
Specifications (characteristics)
Item
Output frequency range
Symbol
f
0
Specifications
PTF
PH
PCE
/
SCE
2.21675 MHz
41.001 MHz
2.21675 MHz
to 41.000 MHz
to 70.000 MHz
to 40.000 MHz
5.0 V
±0.5
V
3.3 V
±0.3
V
-55
°C
to +100
°C
-20
°C
to +70
°C
C:
±100
× 10
-6
17 mA Max.
35 mA Max.
9 mA Max.
5 mA Max.
10 mA Max.
20 mA Max.
5 mA Max.
3 mA Max.
-
2
µA
Max.
-
40 % to 60 %
45 % to 55 %
45 % to 55 %
-
V
CC
-0.4 V Min.
0.4 V Max.
10 TTL Max.
50 pF Max.
20 pF Max.(≤55 MHz)
15 pF Max.(>55 MHz)
2.0 V Min.
0.8 V Max.
-
30 pF Max.
15 pF Max.
OE Terminal,
ST
Terminal (SCE)
CMOS load:20 % V
CC
to 80 % V
CC
level
TTL load:0.4 V to 2.4 V level
Time at minimum supply voltage to be 0 s
+25
°C,
V
CC
=5.0 V/3.3 V/2.5 V, First year
-20
°C
to +70
°C
No load condition
OE=GND
ST
=GND(SCE)
CMOS load:50 % V
CC
level
TTL load: 1.4 V level
I
OH
=-8 mA(PTF)/-4 mA(PH,SCE,PCE),
/-3.2 mA(PDE)
I
OL
=16 mA(PTF)/4mA(PH,SCE,PCE)
/3.2 mA(PDE)
L_CMOS
≤
15 pF
PDE
2.21675 MHz
to 40.000 MHz
2.5 V
±0.25
V
Remarks
Supply voltage
V
CC
Storage
T_stg
Temperature temperature
range
Operating
T_use
temperature
Frequency tolerance
F_tol(osc)
Current consumption
I
CC
Output disable current
I_dis
Stand-by current
I_std
Symmetry
High output voltage
Low output voltage
Output load condition
(TTL)
Output load condition
(CMOS)
Output enable /
disable input voltage
Output rise and fall time
Oscillation start up time
Frequency aging
SYM
V
OH
V
OL
L_TTL
L_CMOS
V
IH
V
IL
tr / tf
Stored as bare product after unpacking
t
OSC
F_aging
7 ns Max.
5 ns Max.
4 ms Max.
80 % V
CC
Min.
20 % V
CC
Max.
5 ns Max.
-
10 ms Max.
4 ms Max.
-6
±5 ×
10 / year Max.
Specifications (characteristics)
Item
Symbol
PTG
Output frequency range
f
0
Supply voltage
V
CC
Storage
T_stg
Temperature temperature
range
Operating
T_use
temperature
Frequency tolerance
F_tol(osc)
Current consumption
I
CC
Output disable current
I_dis
Stand-by current
I_std
Symmetry
High output voltage
Low output voltage
Output load condition
Output enable /
disable input voltage
Output rise and fall time
Oscillation start up time
Frequency aging
SYM
V
OH
V
OL
L_CMOS
V
IH
V
IL
tr / tf
Specifications
PHG
2.21675 MHz to 33.000 MHz
*1
4.5 V to 5.5 V
-55
°C
to +100
°C
-20
°C
to +70
°C
B:
±50 ×
10
-6
25 mA Max.
20 mA Max.
-
-
40 % to 60 %
2.4 V Min.
-
C:
±100 ×
10
-6
12 mA Max.
10 mA Max.
50
µA
Max.
-20
°C
to +70
°C
No load condition
OE=GND (PTG,PHG,PCG)
ST
=GND (SCG)
50 % V
CC
level, L_CMOS=25 pF
1.4 V level, L_CMOS=25 pF
I
OH
=-8 mA
I
OH
=-16 mA
I
OL
=8 mA
I
OL
=16 mA
OE Terminal ,
ST
Terminal
20 % V
CC
to 80 % V
CC
level, L_CMOS
≤
25 pF
TTL load:0.4 V to 2.4 V level, L_CMOS
≤
25 pF
t=0 at 90 % V
CC
+25
°C,
V
CC
=5.0 V/ 3.3 V, First year
PCG
/
SCG
2.7 V to 3.6 V
Stored as bare product after unpacking
Remarks
t
OSC
F_aging
-
2.4 ns Max.
*1
4.1250 MHz < f
o
< 4.4336 MHz, 8.2500 MHz < f
o
< 8.8672 MHz, 16.500 MHz < f
o
< 17.7344 MHz : Unavailable
45 % to 55 %
-
-
V
CC
-0.4 V Min.
V
CC
-0.4 V Min.
-
-
0.4 V Max.
0.4 V Max.
-
25 pF Max.
2.0 V Min.
70 % V
CC
Min.
0.8 V Max.
20 % V
CC
Max.
3.4 ns Max.
4 ns Max.
-
12 ms Max.
±5 ×
10
-6
/ year Max.
38
http://www.epsontoyocom.co.jp
Crystal oscillator
Specifications (characteristics)
Item
Output frequency range
Supply voltage
Storage
Temperature temperature
range
Operating
temperature
Frequency tolerance
Current consumption
Output disable current
Stand-by current
Symmetry
High output voltage
Low output voltage
Output load condition
(TTL)
Output load condition
(CMOS)
Output enable /
disable input voltage
Output rise and fall time
Oscillation start up time
Frequency aging
Symbol
f
0
V
CC
T_stg
T_use
F_tol(osc)
I
CC
I_dis
I_std
SYM
V
OH
V
OL
L_TTL
L_CMOS
V
IH
V
IL
tr / tf
2.0 V Min.
0.8 V Max.
-
4 ns Max.
PTW
/
STW
Specifications
PHW
/
SHW
PCW
/
SCW
32.001 MHz to 135.000 MHz
5.0 V
±0.5
V
3.3 V
±0.3
V
-55
°C
to +100
°C
-20
°C
to +70
°C
B:
±50 ×
10
-6
C:
±100 ×
10
-6
45 mA Max.
28 mA Max.
30 mA Max.
16 mA Max.
50
µA
Max.
-
40 % to 60 %
40 % to 60 %
-
V
CC
-0.4 V Min.
0.4 V Max.
5 TTL Max.
-
15 pF Max.
70 % V
CC
Min.
20 % V
CC
Max.
4 ns Max.
-
-
-20
°C
to +70
°C
*1
No load condition( Max. frequency range )
OE=GND (PTW,PHW,PCW)
ST
=GND (STW,SHW,SCW)
50 % V
CC
level, L_CMOS=Max.
1.4 V level, L_CMOS=Max.
I
OH
=-16 mA(PTW , STW , PHW , SHW)/-8 mA(PCW , SCW)
I
OL
= 16 mA(PTW , STW , PHW , SHW)/ 8 mA(PCW , SCW)
f
O
≤
90 MHz, Max.Supply voltage.
Max.frequency, Max.Supply voltage.
OE Terminal ,
ST
Terminal
20 % V
CC
to 80 % V
CC
level
,
L_CMOS
≤
Max.
0.4 V to 2.4 V level
Time at minimum supply voltage to be 0 s
+25
°C,
V
CC
=5.0 V / 3.3 V, First year
Remarks
Stored as bare product after unpacking
t
OSC
F_aging
-
10 ms Max.
±5 ×
10
-6
/ year Max.
*1
.
“C” tolerance : 40 MHz<f
0
≤135
MHz
External dimensions
(Unit:mm)
Footprint (Recommended)
(Unit:mm)
10.5 Max.
#4
#3
PTF9352A
#1
#2
5.0
5.8 Max.
E 18.4320C
Pin map
Pin
Connection
1
OE or
ST
2
GND
3
OUT
4
Vcc
1.3
2.7 Max.
5.08
0.05Min.
3.6
Metal may be exposed on the top or bottom of this product.
This will not affect any quality, reliability or electrical spec.
Note.
OE pin (
PTF,PH,PCE,PDE,PTW,PHW,PCW,PTG,PHG,PCG
)
OE pin = "H" or "open" : Specified frequency output.
OE pin = "L" : Output is high impedance.
ST
pin (STW, SHW, SCW,SCG)
ST
pin = "H" or "open" : Specified frequency output.
ST
pin = "L" : Output is low level (weak pull - down),oscillation stops.
4.6
0.51
(1.0)
(1.0)
5.08
ST
pin (SCE)
ST
pin = "H" or "open" : Specified frequency output.
ST
pin = "L" : Output is low level ,oscillation stops.
http://www.epsontoyocom.co.jp
2.1
39
End to End EPSON TOYOCOM
The development of our ubiquitous network society has caused
a diversification of applications and has increased the demand for
high-level quartz devices in terms of quality, quantity, and
function.
The Quartz Device Operations Division of SEIKO EPSON
CORPORATION (EPSON)and TOYO COMMUNICATION
EQUIPMENT CO.,LTD.(TOYOCOM) were integrated on October
1,2005 to establish a new company, EPSON TOYOCOM
CORPORATION, to meet these market and customer demands.
Each company contributes its own strength; EPSON holds a
strong presence in consumer products and TOYOCOM is strong
in industrial products. The consolidation of these two companies
in a new company that provides advanced expertise with a wide
range of products for terminals and infrastructure to our
customers.
Quartz device 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 “end-to-end” solutions to problems arising with
products for consumer use, such as core network systems and
automotive systems.
PROMOTION OF ENVIRONMENTAL MANAGEMENT SYSTEM
CONFORMING INTERNATIONAL STANDARD
At EPSON TOYOCOM, all environmental initiatives operate under the Plan-Do-Check-Action(PDCA) cycle designed to achieve continuous
improvements. The environmental management system (EMS) operates under the ISO 14001 environmental management standard.
In May 2001, 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.
ISO 14000 is an international standard for environmental
management that was established by the International
Standards Organization in 1996 against the background
of growing concern regarding global warming, destruction
of the ozone layer, and global deforestation.
WORKING FOR HIGH QUALITY
EPSON TOYOCOM quickly began working to aquire company-wide ISO 9000 series certification, and has acquired ISO 9001 or ISO 9002 certification
with all targeted products manufactured in Japanese and overseas plants.
The Quartz Device Operations Division (Ina Japan,EPM and SZE) have acquired QS-9000 certification, which are of higher Level.
Also QS-9000 and TS 16949 certification, which is of higher level, has been acquired.
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 automobile industry.
Notice
●The
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 circuit, program, usage etc., written in this material is just for reference. EPSON TOYOCOM does not assume any liability for
the occurrence of infringing 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 licence from the Ministry of International Trade and industry or other
approval from another government agency.
●These
products are intended for general use in electronic equipment. When using them in specific applications that require extremely high reliability
such as applications stated below, it is required to obtain the 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 code and marking will still remain as previously identified prior to the merger.
Due to the on going strategy of gradual unification of part numbers, please review product code and marking 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 which will be user friendly.
Microcontroller MCU
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