Pb in glass exemption 7 (c)-I per RoHS II 2011/65/EU Annex
12.5 x 4.95 x 5.1mm
Moisture Sensitivity Level – MSL – N/A
(The ABSM3A Series is a Hermetically Sealed device and not moisture sensitive)
APPLICATIONS:
• Home electronics
• Computers, modems, and communications
• Clock applications
• Microprocessors
STANDARD SPECIFICATIONS:
Parameters
Frequen
c
y Ran
g
e
Operation Mode
Operating Temperature
Stora
g
e Te
mp
erature
Frequen
c
y Toleran
c
e
Frequency Stability over the
Operating
Temperature ( ref. to +25°C ± 3
o
C)
Minimum
Typical
Maximum
Units
M
H
z
Standard
Standard
Standard
Option “FB”
See
options
See o
p
tions
See
options
3.579545MHz ~
3.999MHz
4.000 MHZ ~
4.999MHz
5.000MHz ~
6.999MHz
7.000MHz ~
14.999MHz
15.000MHz ~
48.000MHZ (Fund.)
40.000MHz ~
60.000MHz (3
rd
OT)
Notes
3.579545
60
3.579545MHz ~ 30.00MHz: Fundamental, AT
30.01MHz ~ 39.99MHz: Fundamental, BT
40.00MHz ~ 60.00MHz: 3
rd
OT
40.00MHz ~ 48.00MHz: Fundamental, BT
-10
+60
-
40
+85
-
50
+50
-100
+100
150
120
ºC
ºC
ppm
ppm
Equivalent series resistance (R1)
90
50
40
80
Ω
S
h
unt
c
a
p
a
c
itan
c
e (C0)
Load
c
a
p
a
c
ita n
c
e (CL)
Drive Level
Aging (per
year) @25°C ± 3
o
C
Insulation Resistan
c
e
7 .0
18
100
-5
500
1000
+5
p
F
p
F
µW
ppm
M
Ω
See o
p
tions
@100Vd
c
±15V
ABRACON IS
ISO 9001:2008
ISO 9001 / QS 9000
CERTIFIED
2 Faraday, Suit#B, Irvine, California 92618
Revised: 10.09.14
tel 949-546-8000
|
fax 949-546-8001
Visit
www.abracon.com
for Terms & Conditions of Sale
Surface Mount Microprocessor Crystal
ABSM3A
RoHS / RoHS II Compliant
Pb in glass exemption 7 (c)-I per RoHS II 2011/65/EU Annex
12.5 x 4.95 x 5.1mm
OPTIONS & PART IDENTIFICATION:
(Left blank if standard)
ABSM3
Height max.
(mm)
Blank: 5.1
2: 4.5
3: 3.8
Frequency in MHz
e.g. 14.31818MHz
26.000MHz
Load Capacitance (pF)
Please specify CL in pF or
S for series (10pF min) if
not standard
A-
MHz -
-
-
-
-
-
-
Packaging
Blank: Bulk
T: 1kpcs/reel
Mode
Blank: Standard
FB: Fund BT for
40MHz≤F≤48MHz
Operating Temp.
Blank: -10°C to +60°C
E: 0°C to +70°C
B: -20°C to +70°C
C: -30°C to +70°C
N: -30°C to +85°C
D: -40°C to +85°C
Freq. Tolerance
Blank: ± 50 ppm
1: ± 10 ppm
7: ± 15 ppm
2: ± 20 ppm
3: ± 25 ppm
4: ± 30 ppm
Freq. Stability
Blank:± 100 ppm
U: ± 10 ppm(*)
G: ± 15 ppm(**)
X: ± 20 ppm
W: ± 25 ppm
Y: ± 30 ppm
H: ± 35 ppm
Z: ± 50 ppm
Custom ESR if other than
standard
R□
□: Specify
a value in
Ω
if
not standard (e.g.: R40)
(*) -10°C to 60°C only.
(**) Temp. option E, B, C, N and -10 to +60°C only
Note: Fundamental BT frequency stability ± 100
ppm max. at -10°C to 60°C only
ABRACON IS
ISO 9001:2008
ISO 9001 / QS 9000
CERTIFIED
2 Faraday, Suit#B, Irvine, California 92618
Revised: 10.09.14
tel 949-546-8000
|
fax 949-546-8001
Visit
www.abracon.com
for Terms & Conditions of Sale
Surface Mount Microprocessor Crystal
ABSM3A
OUTLINE DIMENSION:
RoHS / RoHS II Compliant
Pb in glass exemption 7 (c)-I per RoHS II 2011/65/EU Annex
12.5 x 4.95 x 5.1mm
H (see table)
P/N
ABSM3A
ABSM32A
ABSM33A
Dimensions: mm
Height max.
(mm)
5.1
4.5
3.8
REFLOW PROFILE:
ABRACON IS
ISO 9001:2008
ISO 9001 / QS 9000
CERTIFIED
2 Faraday, Suit#B, Irvine, California 92618
Revised: 10.09.14
tel 949-546-8000
|
fax 949-546-8001
Visit
www.abracon.com
for Terms & Conditions of Sale
Surface Mount Microprocessor Crystal
ABSM3A
TAPE & REEL:
T=Tape and Reel (1000pcs/reel)
RoHS / RoHS II Compliant
Pb in glass exemption 7 (c)-I per RoHS II 2011/65/EU Annex
12.5 x 4.95 x 5.1mm
Dimensions: mm
ATTENTION:
Abracon Corporation’s products are COTS – Commercial-Off-The-Shelf products; suitable for Commercial, Industrial and, where designated, Automotive Applica-
tions. Abracon’s products are not specifically designed for Military, Aviation, Aerospace, Life-dependant Medical applications or any application requiring high reliability where
component failure could result in loss of life and/or property. For applications requiring high reliability and/or presenting an extreme operating environment, written consent and
authorization from Abracon Corporation is required. Please contact Abracon Corporation for more information.
I just created a virtual device of 8051 core in libero9.0, but I don't know what to do next. Should I create a Verilog file and then program in C language in this Verilog file? Has anyone used 51 core...
Dig a hole first and fill it later 20180108 1: First of all, I was lucky enough to win a STM32NUCLEO F413, and then when I was ready to use it, I found that I didn't know where to start. (It seems tha...
Dear colleagues, please post questions and exchange ideas here. EEWORLD is looking forward to discussing with you here. :lol Welcome everyone to express your ideas and help friends in the forum to ans...
I am a newbie here, and I want to become an electronics expert and communicate and learn with more people. I hope the experts can give me some learning routes, knowledge building and directions to enh...
Sailing is gaining more and more attention. How to use modern technology to assist training and improve competition results is particularly important. Considering the real-time data collection in t...[Details]
1. Overview
Will passive devices
produce nonlinear intermodulation distortion? The answer is yes! Although there is no systematic theoretical analysis, it has been found in engineerin...[Details]
The Portable Digital Data Acquisition System (PDDAS) uses LabVIEW Real-Time and PXI to control the wind tunnel test and record air pressure data from 128 different channels.
"The LabVIEW Real-...[Details]
All electronic design engineers and scientists have performed electrical signal analysis, or signal analysis for short. Through this basic measurement, they can gain insight into signal details and...[Details]
1. Principle of displacement angle sensor
The angle sensor is used to detect angles. It has a hole in its body that fits the LEGO axle. When connected to the RCX, the angle sensor counts once ...[Details]
0 Introduction
With the development of society, people pay more and more attention to security work. Monitoring products have been used in various fields instead of being used only in importan...[Details]
introduction
The emergence of high-performance, low-power embedded CPUs and high-reliability network operating systems has made it possible to implement applications with large amounts of comp...[Details]
1. Introduction
With the gradual automation and modernization of industrial control systems, fieldbus control systems have received more and more attention and application. CAN bus is currentl...[Details]
1. Introduction
At present, most lighting equipment still uses traditional energy for lighting. Making full use of solar energy as the energy supply for lighting equipment is of great si...[Details]
Overview:
This paper introduces a method of connecting a CAN-bus network with Ethernet to form a medium-sized remote monitoring/data transmission network.
CAN (Controller Area Network) is ...[Details]
1 Introduction
The Third Steel Plant of Jigang Group is a key investment project of Jigang Group during the "15th Five-Year Plan". It has introduced first-class domestic and foreign advanced eq...[Details]
1 Introduction
Water resources are the basic conditions for human survival and the lifeline of economic development. The reality shows that due to the global shortage of water resources and th...[Details]
Many battery-powered systems require a visual indicator to show when the battery needs to be replaced. LEDs are commonly used for this purpose, but they consume at least 10mA of current. This con...[Details]
Printed circuit boards ( PCBs
)
are used in most electrical products
. If a PCB has low
insulation resistance
(IR), the performance of the circuits on the PCB will be greatly reduced...[Details]
Corelink Semiconductor has launched the CL1100-based 5-7W E27 LED lighting driver system solution DB2. This driver module meets the requirements of small size (L×W×H=5.1cm×2.1cm×1.8cm), low standby...[Details]
FPGA/CPLD
京公网安备 11010802033920号
EEWORLD
