L115-044.736M datasheet, PDF - EEWORLD Datasheet

Datasheet> All Categories > Passive components> oscillator> L115-044.736M

L115-044.736M: DescriptionLVDS Output Clock Oscillator, 44.736MHz Nom, ROHS COMPLIANT, HERMETIC SEALED, CERAMIC PACKAGE-6; CategoryPassive components oscillator; File Size171KB，2 Pages; ManufacturerConnor-Winfield; Websitehttp://www.conwin.com/; Environmental Compliance

Download Datasheet Parametric View All

L115-044.736M Overview

LVDS Output Clock Oscillator, 44.736MHz Nom, ROHS COMPLIANT, HERMETIC SEALED, CERAMIC PACKAGE-6

L115-044.736M Parametric

Parameter Name	Attribute value
Is it lead-free?	Lead free
Is it Rohs certified?	conform to
Maker	Connor-Winfield
Reach Compliance Code	unknown
Other features	TRI-STATE; ENABLE/DISABLE FUNCTION; TAPE AND REEL
maximum descent time	0.7 ns
Frequency Adjustment - Mechanical	NO
frequency stability	25%
Manufacturer's serial number	L115
Installation features	SURFACE MOUNT
Nominal operating frequency	44.736 MHz
Maximum operating temperature	70 °C
Minimum operating temperature
Oscillator type	LVDS
Output load	100 OHM
physical size	7.0mm x 5.0mm x 1.5mm
longest rise time	0.7 ns
Maximum supply voltage	3.465 V
Minimum supply voltage	3.135 V
Nominal supply voltage	3.3 V
surface mount	YES
maximum symmetry	55/45 %

Preview

Download Datasheet

View All

Surface Mount 5x7mm

LVDS Clock Oscillator

Description:

2111 Comprehensive Drive

Aurora, Illinois 60505

Phone: 630- 851- 4722

Fax: 630- 851- 5040

www.conwin.com

US Headquarters:

630-851-4722

European Headquarters:

+353-61-472221

The Connor Winfield Lxxx - Series is a

5x7 mm Surface Mount, LVDS, Fixed

Frequency Crystal Controlled Oscillator

(XO) designed for applications requiring

tight frequency stability, wide temperature range

and low jitter. Operating at 2.5V or 3.3V supply

voltage, the Lxxx - Series provides an LVDS

Differential Outputs with enable / disable function.

The surface mount package is designed for

high-density mounting and is optimum for mass

production.

0946

155.5 L143

2 MHz

Features:

Model Lxxx - Series

5.0 x7.0mm Surface Mount Package

2.5V or 3.3V Operation

LVDS Output Logic

Frequency Stabilities Available:

+/-20ppm,+/-25ppm, +/-50ppm, +/-100ppm

Temperature Ranges Available:

0 to 70°C, -40 to 85°C, 0 to 85°C, -20 to 70°C

Low Jitter <1pS RMS

Tri-State Enable/Disable on Pad 1 or 2

Tape and Reel Packaging

RoHS Compliant / Lead Free

Absolute Maximum Ratings

Storage Temperature

Supply Voltage (Vcc)

Input Voltage (Vc)

Parameter

Minimum

-55

-0.5

Nominal

Maximum

125

4.6

Vcc + 0.5

Units

°C

Vdc

Notes

Operating Specifications

Output Frequency (Fo)

19.44

260

Total Frequency Tolerance

(See Ordering Information for full part number)

Model Lx4x

-20

Model Lx1x

-25

Model Lx2x

-50

Model Lx3x

-100

100

Operating Temperature Range

Model L1xx

Model L2xx

-40

Model L3xx

Model L4xx

-20

Supply Voltage (Vcc)

Model Lxx2 E/D Pad 1

2.375

2.5

Model Lxx3 E/D Pad 1

3.135

3.3

Model Lxx4 E/D Pad 2

2.375

2.5

Model Lxx5 E/D Pad 2

3.135

3.3

Supply Current (Icc)

Jitter:

Period Jitter

2.5

3.5

Integrated Phase Jitter (BW = 12 KHz to 20 MHz)

Fo > 100 MHz

0.5

0.7

80 MHz < Fo < 100 MHz

0.8

1.0

Fo <80 MHz

1.5

2.5

SSB Phase Noise

@ 10 Hz offset

-60

@ 100 Hz offset

-90

@ 1 KHz offset

-115

@ 10 KHz offset

-140

@ 100 KHz offset

-145

Start-Up Time

Parameter

Minimum

Nominal

Maximum

Units

MHz

ppm

°C

2.625

3.465

2.625

3.465

ps RMS

dBc/Hz

Notes

Vdc

Input Characteristics

Nominal

Enable Input Voltage - (High) -(Vih)

70%Vcc

Disable Input Voltage - (Low) - (Vil)

Enable Time

Disable Time

Standby Current (When Osc. is disabled) -

Parameter

Minimum

Maximum

30%Vcc

500

200

Units

Vdc

Notes

LVDS Output Characteristics

Load

Output Differential Voltage (Vod)

250

Output Swing (Dif. Output Pk to Pk)

500

Duty Cycle at 50% Level

Differential Rise / Fall Time: 20% to 80%

Parameter

Minimum

Nominal

100

700

0.3

Maximum

450

900

0.7

Units

Ohm

Notes

Bulletin

Page

Revision

Date

DS021

1 of 2

02 Dec 2009

Notes:

1. Includes calibration @ 25°C, frequency stability vs. change in temperature, supply voltage and load variations, shock and vibration and 20 years

aging.

2 When the oscillator is disabled the outputs are at high impedance. Outputs are enabled with no connection on pad 1.

3. Vod is measured with a 100 ohm resistor between the true and the complementary outputs.

4. Duty cycle measured at 50% of output voltage swing..

Recommended Resources

Using TL431 as a high-power adjustable voltage stabilized power supply

RTS3350 circuit

KA2310 (toy) radio remote control transmission control and regulation circuit - basic test circuit

Touch electronic code lock circuit

Self-locking switch circuit

Working principle and circuit of permanent magnet commutator motor

Help + Recruiting experts for part-time WinCE/RFID programming: I am working on a small RFID application system and I am looking for experts to participate in the design part-time: System introduction and requirements: 1. This system is a library management system...; lishixin Embedded System

[National Technology M4 core hot-selling N32G45XVL evaluation] The fifth low-power performance evaluation: Today I spent some time studying the low power mode of N32G45XVL and measured the power consumption data.First, I summarized the N32G457 low power consumption mode introduced in the manual and listed ...; oxygen_sh Domestic Chip Exchange

[Keysight Technologies Thanksgiving Month Essay Contest] + Timely Rain DSOX1102G: When I saw the EEWORD article solicitation, I was immediately delighted. Finally, I had something to talk about. Since February 2017, the company was preparing to make a metal distance detection produ...; jplzl10000 Test/Measurement

About the address of IOCON_SCKLOC in LPC1100 routine: When operating the spi function of SSP, I found the following statement in lpc1100.h in the example program. #define IOCON_SCKLOC (*(volatile unsigned long *)(IOCON_BASE + 0x110)) That is to say, the ...; eeleader MCU

STM32G timer setting problem: I used STM32CUBE to develop an experimental program for STM32G431. I felt that the setting was 1K Hz, and the TIM6 clock was very slow. About 50 interrupt cycles, that is, 1S, was 10 times slower. Bec...; bigbat stm32/stm8

AHB Configuration: I want to use AHB mode and GPIO register mapping to turn on the light. Which registers do I need to configure? (I am using arm cortex M3 LM3S9B96) I configured the following, but it does not work. Is ...; jiangsh FPGA/CPLD

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