CSM4Z-A1B1C450-23.999D20 datasheet, PDF

Datasheet> All Categories > Passive components> Crystal/resonator> CSM4Z-A1B1C450-23.999D20

CSM4Z-A1B1C450-23.999D20: DescriptionParallel - Fundamental Quartz Crystal,; CategoryPassive components Crystal/resonator; File Size103KB，1 Pages; ManufacturerCardinal Components

Download Datasheet Parametric View All

CSM4Z-A1B1C450-23.999D20 Overview

Parallel - Fundamental Quartz Crystal,

CSM4Z-A1B1C450-23.999D20 Parametric

Parameter Name	Attribute value
Objectid	7192980835
package instruction	SMD, 2 PIN
Reach Compliance Code	compliant
Country Of Origin	Taiwan
YTEOL	6.7
Other features	AT CUT; TR
Ageing	5 PPM/YEAR
Crystal/Resonator Type	PARALLEL - FUNDAMENTAL
Drive level	1000 µW
frequency stability	0.01%
frequency tolerance	10 ppm
JESD-609 code	e3
load capacitance	20 pF
Installation features	SURFACE MOUNT
Nominal operating frequency	23.999 MHz
Maximum operating temperature	70 °C
Minimum operating temperature	-10 °C
physical size	L11.4XB4.7XH3.0 (mm)/L0.449XB0.185XH0.118 (inch)
Series resistance	50 Ω
surface mount	YES
Terminal surface	MATTE TIN

Preview

Download Datasheet

View All

CARDINAL COMPONENTS

Low Profile Surface Mount Crystals

• 3.0 mm Maximum SMD profile

• Very cost competitive

• Fast delivery

Series CSM4

CSM5

Part Numbering Example: CSM4 Z - A1 B2 C2 200 - 3.579545 D18 - 3

CSM4

A1*

OPERATING TEMP.

A0 = -10°C ~ +60°C

A1 = -10°C ~ +70°C

A2 = -40°C ~ +85°C

A3 = -55°C ~ +125°C

200

3.579545

D18

-3

SERIES ADDED FEATURES

CSM4 BLANK = BULK PACK

CSM5 Z = TAPE AND REEL

STABILITY TOLERANCE RESISTANCE FREQUENCY

LOAD CAP.

OVERTONE

B1 = ±100

SEE CHART

C1 = ±100

D16,18,20,ETC. BLANK: FUND.

-3: 3rd OT

B2 = ± 50

BELOW

C2 = ± 50

DS = SERIES

B3 = ± 30

C3 = ± 30

B4 = ± 10

C4 = ± 10

*NOTE:

The above ABC combinations cover basic specification options. We tailor our crystal specifications

to meet customer requirements. Please contact our sales department if you don’t see exactly what you need.

Specifications:

Frequency Range:

3.579545 ~ 38.000 MHz

25.000000 ~ 75.000 MHz

26.000000 ~ 48.000 MHz

Operating Temperature:

-10°C ~ +70°C

-40°C ~ +85°C

Frequency Stability:

±100

± 50

± 30

± 15

±100

±50

±30

±10

ppm

AT Cut Fundamental

AT Cut 3rd Overtone

BT Cut Fundamental

CSM4

Standard

Frequency Tolerance:

(at 25°C)

Standard

RECOMMENDED SOLDER

PAD LAYOUT

Load Capacitance:

Standard 18 pF or series.

Please specify your required load.

Resistance:

Standard:

Maximum resistance corresponds to frequency.

See chart below.

Mode: Fundamental or 3rd Overtone

Shunt Capacitance: 7 pF Max

Aging: ± 5 ppm/year

Drive Level: 1.0 mW Max

CSM5

Optional Features:

Tape and Reel (1K per Reel)

Note:

Not all combinations of the above tolerances, stabilities, and temperature

ranges are available. Consult the factory if your requirement is not standard.

Resistance Chart:

All resistances are maximum

values.

EQUIVALENT SERIES RESISTANCE (ESR), MODE OF OPERATION (MODE), AND CUT

Frequency MHz

3.579545~4.999

5.000~5.999

6.000~7.999

8.000~8.999

9.000~9.999

10.000~14.999

ESR(Ω)

200 Max

150 Max

120 Max

90 Max

80 Max

70 Max

Mode/cut

Fund./AT

Frequency MHz

15.000~15.999

16.000~23.999

24.000~30.000

24.000~48.000

24.576~29.999

30.000~75.000

ESR (Ω)

60 Max

50 Max

40 Max

150 Max

100 Max

Mode/cut

Fund./AT

Fund./BT

3rd Overtone/AT

RECOMMENDED SOLDER

PAD LAYOUT

Cardinal Components, Inc.

1801 Broadway St

Charlottesville, VA 22902

USA

TEL:

(973)785-1333

E-MAIL: sales@cardinalxtal.com

WEB: http://www.cardinalxtal.com

Recommended Resources

garage parking light

NAP-11A-FL for CO detection circuit circuit (NSU-11M)

Timer for automatic insertion keyer

DC motor reverse braking

Baseband width modulator circuit with stereo mono conversion

Separately excited switching integrated regulated power supply composed of BG602

Regarding CEDDK's READ_PORT_UCHAR(), where is the port number address defined?: I am writing a GPIO driver recently. In the GPI_Read() stream interface function, I want to use READ_PORT_UCHAR() to receive data from a specified GPIO port. I am using PXA270. Where is the GPIO port ...; houjunli Embedded System

Does anyone know the format of the paper?: [i=s]This post was last edited by paulhyde on 2014-9-15 09:39[/i] How many pages should I write, what is the font size, etc.? Thanks...; 孤雁飞鹰 Electronics Design Contest

STM8 program segment positioning problem: I want to separate the address space of IAP and APP. How can I locate the starting address from 0X8968 to 0XA000?...; lockwe stm32/stm8

About square wave conversion to sine wave: My circuit can get a series of square wave signals, but the duty cycles are different. Because the duty cycles are different, if I directly add a non-adjustable low-pass filter to convert them into si...; addegofly Analog electronics

09 Welcome to join the discussion group for making instruments together!!: [i=s] This post was last edited by paulhyde on 2014-9-15 09:08 [/i] Welcome to discuss, group number: 4611362...; paulllc Electronics Design Contest

Share and comment on "Vishay Optoelectronics Blog" to enjoy wonderful gifts!: Vishay has been giving out gifts recently, so make sure you hold on! We hope you will actively participate in the new activities! ! ! [b][size=3][color=red]Activity link: [/color][/size][/b][url=https...; EEWORLD社区 Discrete Device

Shortcut: A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 AA AB AC AD AE AF AG AH AI AJ AK AL AM AN AO AP AQ AR AS AT AU AV AW AX AY AZ B0 B1 B2 B3 B4 B5 B6 B7 B8 B9 BA BB BC BD BE BF BG BH BI BJ BK BL BM BN BO BP BQ BR BS BT BU BV BW BX BY BZ C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 CA CB CC CD CE CF CG CH CI CJ CK CL CM CN CO CP CQ CR CS CT CU CV CW CX CY CZ D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 DA DB DC DD DE DF DG DH DI DJ DK DL DM DN DO DP DQ DR DS DT DU DV DW DX DZ

Popular Components