3GDF14G-C-80M-FREQ datasheet, PDF

Datasheet> All Categories > Passive components> oscillator> 3GDF14G-C-80M-FREQ

3GDF14G-C-80M-FREQ: DescriptionLVDS Output Clock Oscillator, 38MHz Min, 640MHz Max, ROHS COMPLIANT, DIP-14/4; CategoryPassive components oscillator; File Size114KB，1 Pages; ManufacturerEuroquartz; Websitehttp://www.euroquartz.co.uk/; Environmental Compliance

Download Datasheet Parametric View All

3GDF14G-C-80M-FREQ Overview

LVDS Output Clock Oscillator, 38MHz Min, 640MHz Max, ROHS COMPLIANT, DIP-14/4

3GDF14G-C-80M-FREQ Parametric

Parameter Name	Attribute value
Is it lead-free?	Lead free
Is it Rohs certified?	conform to
Maker	Euroquartz
Reach Compliance Code	compliant
Maximum control voltage	3 V
Minimum control voltage	0.3 V
maximum descent time	0.7 ns
Frequency Adjustment - Mechanical	NO
Frequency offset/pull rate	80 ppm
frequency stability	100%
Installation features	THROUGH HOLE MOUNT
Maximum operating frequency	640 MHz
Minimum operating frequency	38 MHz
Maximum operating temperature	70 °C
Minimum operating temperature
Oscillator type	LVDS
Output load	50 OHM
physical size	20.2mm x 12.8mm x 5.08mm
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	NO
maximum symmetry	55/45 %
Base Number Matches	1

Preview

Download Datasheet

View All

EURO

QUARTZ

14 pin Dual-in-Line

Frequency range 38MHz to 640MHz

LVDS Output

Supply Voltage 3.3 VDC

Phase jitter 0.4ps typical

Pull range from ±30ppm to ±150ppm

GDF14 LVDS VCXO

38.0MHz to 640.0MHz

OUTLINE & DIMENSIONS

DESCRIPTION

GDF14 VCXOs are packaged in an industry-standard 14 pin dual-in-

line package. Typical phase jitter for GDF series VCXOs is 0.4 ps.

Output is LVDS. Applications include phase lock loop, SONET/ATM,

set-top boxes, MPEG , audio/video modulation, video game consoles

and HDTV.

SPECIFICATION

Frequency Range:

Supply Voltage:

Output Logic:

RMS Period Jitter:

Peak to Peak Jitter:

Phase Jitter:

Initial Frequency Accuracy:

Output Voltage HIGH (1):

Output Voltage LOW (0):

Pulling Range:

Control Voltage Range:

Temperature Stability:

Output Load:

Rise/Fall Times:

Duty Cycle:

Start-up Time:

Current Consumption:

Static Discharge Protection:

Storage Temperature:

Ageing:

Enable/Disable:

RoHS Status:

38.0MHz to 640.0MHz

3.3 VDC ±5%

LVDS

3.0ps typical

20.0ps typical, 30.0ps maximum

0.4ps typical, 5.0ps maximum

Tune to the nominal frequency

with Vc= 1.65 ±0.2VDC

1.4 Volts typical

1.1 Volts typical

From ±30ppm to ±150ppm

1.65 ±1.35 Volts

See table

50W into Vdd or Thevenin equiv.

0.5ns typ., 0.7ns max.

20% Vdd to 80% Vdd

50% ±5%

(Measured at Vdd-1.3V)

10ms maximum, 5ms typical

55mA typical, 60mA maximum

(At 202.50MHz)

2kV maximum

-55° to +150°C

±2ppm per year maximum

Not implemented - 4 pin package

Fully compliant or non compliant

PART NUMBERING

Example:

3GPF14G-B-80N-60.000

Supply Voltage

3 = +3.3V

Series Designator

GDF14

RoHS Status

G = RoHs compliant

Blank = RoHS non-compliant

Stability over temperature range

(See table)

Pullability in ±ppm

Pullability determinator

N = minimum

M = maximum

T = Typical

Frequency in MHz

FREQUENCY STABILITY

Stability Code Stability ±ppm Temp. Range

0°~+70°C

100

0°~+70°C

-40°~+85°C

100

-40°~+85°C

If non-standard frequency stability is required

Use ‘I’ followed by stability, i.e. I20 for ±20ppm

EUROQUARTZ LIMITED Blacknell Lane CREWKERNE Somerset UK TA18 7HE

Tel: +44 (0)1460 230000 Fax: +44 (0)1460 230001 info@euroquartz.co.uk www.euroquartz.co.uk

Recommended Resources

Output voltage expansion circuit a

Forward rotation starting circuit with self-locking function

Bandpass filter circuit composed of single power supply op amp 8FC7

8A voltage regulator circuit for mobile devices

Inductive load circuit

Special amplifier circuit for thermocouples working with dual power supplies

TTL integrated NAND gate circuit: After VT2 is turned on, the emitter is at a high level, and the collector of VT2 is at a low level. I don't quite understand here. VT2 is turned on, so isn't the collector of VT2 equivalent to a short...; zjjone1023 Analog electronics

Debugging experience of TMS320LF2407: 1. Debug in FLASH. Only one breakpoint can be set in FLASH debugging. The execution speed is not slow, but the burning is slow and troublesome. It is recommended to use it only for a small amount of d...; sobi Microcontroller MCU

Discussion on the future development trend of MP3/MP4/PMP: [i=s]This post was last edited by jameswangsynnex on 2015-3-3 20:00[/i]...; rain Mobile and portable

How to determine coordinator abnormality in ZStack?: How to judge the coordinator abnormality in ZStack? That is, the coordinator does not respond to the node data?...; yuchenglin RF/Wirelessly

2016 Year of the Monkey New Year Contest: Let’s talk about TI MCU!: [backcolor=red][size=4][color=#ffffff]Event time: From now until February 14th [/color][/size][/backcolor] [size=4][color=#ffffff][backcolor=red]How to participate: [/backcolor][/color][/size][size=4]...; maylove Microcontroller MCU

★★Use STM32 to make a four-axis flight control, including the circuit diagram, PCB, firmware and other related information of the four-axis flight control★★: [From Model China BBS] For your reference [color=#ff0000][b] Flight control PCB diagram: [/b][/color][color=#ff0000][b] Complete set of photos of the assembled quadcopter: [/b][/color][color=#ff0000][...; open82977352 Electronics Design Contest

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