Clock Generator 312.5MHz Clock Generators MultiSynth? Series 48-TFLGA Exposed Pad Surface Mount 1.71V~3.63V Tray
SOT-23
SI5332G-D-GM3 Datasheet
non-compliant
In-Stock: 0 items
Specifications
Name
Value
Type
Parameter
Factory Lead Time
6 Weeks
Mounting Type
Surface Mount
Package / Case
48-TFLGA Exposed Pad
Operating Temperature
-40°C~85°C
Packaging
Tray
Series
MultiSynth™
Part Status
Active
Moisture Sensitivity Level (MSL)
3 (168 Hours)
Type
Clock Generator
Voltage - Supply
1.71V~3.63V
Reach Compliance Code
compliant
Output
HCSL, LVCMOS, LVDS, LVPECL
Number of Circuits
1
Frequency (Max)
312.5MHz
Input
LVCMOS, Crystal
Ratio - Input:Output
3:12
PLL
Yes
Differential - Input:Output
Yes/Yes
Divider/Multiplier
Yes/No
RoHS Status
RoHS Compliant
Pricing & Ordering
Quantity
Unit Price
Ext. Price
490
$9.36390
$4588.311
SI5332G-D-GM3 Product Details
SI5332G-D-GM3 Overview
Clock generator is packaged in the way of Tray. A Clock PLL is included with the 48-TFLGA Exposed Pad package. LVCMOS, Crystal is designed for clock generator's input. 1 circuits are used to achieve clock PLL's superior flexibility. RF synthesizers based on this clock provide frequencies up to 312.5MHz maximum. A Surface Mount-shaped electrical component makes it convenient to mount on a panel. As long as there are 1.71V~3.63V supply voltages provided, clock generator ic should work. Statistics suggest that the ambient temperature be set at -40°C~85°C, which is what is estimated by the test. I would like to present to you a frequency synthesizer that is compatible with HCSL, LVCMOS, LVDS, LVPECL logic levels. This electronic component can be classified into Clock Generator. MultiSynth? series electronic parts are used in this part.
SI5332G-D-GM3 Features
Available in the 48-TFLGA Exposed Pad
SI5332G-D-GM3 Applications
There are a lot of Silicon Labs SI5332G-D-GM3 Clock Generators applications.
Laptops
FM demodulation networks for FM operations
Wireless infrastructure
Digital switching systems
Coherent detection of the signal
Clock signals to the high-speed Digital RF circuits