UM-1/133JF9.990MHZ datasheet, PDF

Datasheet> All Categories > Passive components> Crystal/resonator> UM-1/133JF9.990MHZ

UM-1/133JF9.990MHZ: DescriptionParallel - Fundamental Quartz Crystal, 9.99MHz Nom,; CategoryPassive components Crystal/resonator; File Size60KB，1 Pages; ManufacturerGolledge Electronics; Websitehttp://www.golledge.com/; Environmental Compliance

Download Datasheet Parametric View All

UM-1/133JF9.990MHZ Overview

Parallel - Fundamental Quartz Crystal, 9.99MHz Nom,

UM-1/133JF9.990MHZ Parametric

Parameter Name	Attribute value
Is it lead-free?	Lead free
Is it Rohs certified?	conform to
Maker	Golledge Electronics
Reach Compliance Code	compliant
Ageing	3 PPM/FIRST YEAR
Crystal/Resonator Type	PARALLEL - FUNDAMENTAL
Drive level	100 µW
frequency stability	0.003%
frequency tolerance	10 ppm
load capacitance	30 pF
Manufacturer's serial number	UM-1
Installation features	THROUGH HOLE MOUNT
Nominal operating frequency	9.99 MHz
Maximum operating temperature	80 °C
Minimum operating temperature	-30 °C
physical size	L7.8XB3.2XH8.0 (mm)/L0.307XB0.126XH0.315 (inch)
Series resistance	90 Ω
surface mount	NO

Preview

Download Datasheet

View All

Miniature Crystals

UM-1, UM-4 & UM-5

Specifications

UM-1: 8.0mm maximum height

UM-4: 4.8mm maximum height

UM-5: 6.0mm maximum height

Parameters

Package:

UM-1

UM-4

UM-5

Product

UM-1 UM-4 UM-5

Option

Code

Frequency range:

3.579 ~ 300MHz

10.0 ~ 300MHz

Calibration tolerance:

±5ppm

±7.5ppm

±10ppm

±20ppm

±30ppm

Other values (±3ppm ~ ±100ppm)

±5ppm

±7.5ppm

±10ppm

±20ppm

±30ppm

Other values (±3ppm ~ ±100ppm)

specify

0.35Ø

12.00

(min)

ACTUAL SIZE

Temperature stability:

3.75

Package

3.20

(max)

7.80

UM-1

UM-4

UM-5

Height H

8.00 max

4.80 max

6.00 max

Scale 2:1

Slim case (2.6mm thick is available as an option over 20.0MHz. Contact our sales office for

details.

Features

Operating temperature range:

0 to +50°C

-10 to +60°C

-20 to +70°C

-30 to +80°C

-40 to +85°C

Other values

Circuit condition:

12pF

16pF

20pF

30pF

Series resonant

Other values

Fundamental

3rd overtone

5th overtone

7th overtone

7pF max

Ideal for custom frequencies & specifications

Wide frequency range

Tight specifications available

Fundamental mode up to 55.0MHz

Oscillation mode:

ESR Values

The table shows the maximum ESR values in ohms for each

package across the available frequency range.

Frequency

3.5 ~ 4.99

5.0 ~ 5.99

6.0 ~ 6.99

7.0 ~ 7.99

8.0 ~ 9.99

10.0 ~ 15.9

16.0 ~ 55.0

30.0 ~ 49.9

50.0 ~ 100

60.0 ~ 150

130 ~ 300

Mode

Fundamental

3rd overtone

5th overtone

7th overtone

UM-1

200

150

120

100

150

UM-4

120

150

UM-5

120

150

Static capacitance (C

Equivalent series resistance (max):

see table

Ageing:

±3ppm max first year

100µW

Test drive level:

Standard.

Optional - Please specify required code(s) when ordering

Ordering Information

Product name + option codes + frequency

eg:

UM-1/231JF 24.576MHz

20/30/10/30-F

Insulating washers and mounting clips available. See our website

for details.

Some combinations of stability and temperature range may not be

available. Please check with us before ordering.

Tel:

+44 1460 256 100

19 Jul 2002

Fax:

+44 1460 256 101

E-mail:

sales@golledge.com

Web:

www.golledge.com

Recommended Resources

Series switching power supply output voltage filter circuit

Correct application wiring diagram of HL402 in high frequency field

TMP01 type sensor circuit for setting temperature control

Zero detection circuit using 2 photocouplers

Semiconductor pressure sensor precision interface circuit

845E computer motherboard circuit diagram_13

Looking for a digital thermometer graduation project: Brothers and sisters, please help me...; 周翔 MCU

Interpretation of the key technologies of the three major systems of smart grid: Low-voltage electrical appliances can be seen everywhere in our lives. They are responsible for the distribution and control of most electric energy. As the construction of smart grids has been repeat...; xyh_521 Energy Infrastructure?

msp430f5438: I have studied the 4 series 5438 for a few days. Compared with other series of 430 microcontrollers, what are the differences in on-chip internal and external devices?...; zhongxuemin Microcontroller MCU

Positive and negative PWM combined: As shown in the figure, there is now a 0-5V positive PWM and a -12V-0V negative PWM. When the positive PWM is output, the negative PWM is not output, and the same is true for the negative PWM. After c...; ggg_daisi Analog electronics

There is a circuit that has been bothering me for a long time. I hope someone can help me solve it. Thank you!: [img]file:///C:\Users\lpl\Documents\Tencent Files\870136749\Image\C2C\A$37OKKBM03M[_PQW{`V5XN.png[/img]If you see this, please help me. I am not very good at analog electronics. This circuit comes fro...; qq48299 Analog electronics

FPGA square root implementation of a simple algorithm: Theoretical basis:Let's first look at how to calculate the square root manually in base 10. Let's look at the following two equations: x = 10*p + q (1) After squaring the left and right sides of equat...; eeleader FPGA/CPLD

Shortcut: S0 S1 S2 S3 S4 S5 S6 S7 S8 S9 SA SB SC SD SE SF SG SH SI SJ SK SL SM SN SO SP SQ SR SS ST SU SV SW SX SY SZ T0 T1 T2 T3 T4 T5 T6 T7 T8 T9 TA TB TC TD TE TF TG TH TI TJ TK TL TM TN TO TP TQ TR TS TT TU TV TW TX TY TZ U0 U1 U2 U3 U4 U6 U7 U8 UA UB UC UD UE UF UG UH UI UJ UK UL UM UN UP UQ UR US UT UU UV UW UX UZ V0 V1 V2 V3 V4 V5 V6 V7 V8 V9 VA VB VC VD VE VF VG VH VI VJ VK VL VM VN VO VP VQ VR VS VT VU VV VW VX VY VZ W0 W1 W2 W3 W4 W5 W6 W7 W8 W9 WA WB WC WD WE WF WG WH WI WJ WK WL WM WN WO WP WR WS WT WU WV WW WY X0 X1 X2 X3 X4 X5 X7 X8 X9 XA XB XC XD XE XF XG XH XK XL XM XN XO XP XQ XR XS XT XU XV XW XX XY XZ Y0 Y1 Y2 Y4 Y5 Y6 Y9 YA YB YC YD YE YF YG YH YK YL YM YN YP YQ YR YS YT YX Z0 Z1 Z2 Z3 Z4 Z5 Z6 Z8 ZA ZB ZC ZD ZE ZF ZG ZH ZJ ZL ZM ZN ZP ZR ZS ZT ZU ZV ZW ZX ZY

Popular Components