Zero Delay Buffer 133MHz IDT2309-1 Clock Generators 16-SOIC (0.154, 3.90mm Width) Surface Mount 3V~3.6V Tube
SOT-23
2309-1DCGI Datasheet
non-compliant
In-Stock: 0 items
Specifications
Name
Value
Type
Parameter
Factory Lead Time
12 Weeks
Mounting Type
Surface Mount
Package / Case
16-SOIC (0.154, 3.90mm Width)
Supplier Device Package
16-SOIC
Operating Temperature
-40°C~85°C
Packaging
Tube
Part Status
Active
Moisture Sensitivity Level (MSL)
3 (168 Hours)
Type
Zero Delay Buffer
Voltage - Supply
3V~3.6V
Base Part Number
IDT2309-1
Output
LVTTL
Number of Circuits
1
Frequency (Max)
133MHz
Input
LVTTL
Ratio - Input:Output
1:9
PLL
Yes with Bypass
Differential - Input:Output
No/No
Divider/Multiplier
No/No
RoHS Status
ROHS3 Compliant
Pricing & Ordering
Quantity
Unit Price
Ext. Price
1
$1.986334
$1.986334
10
$1.873900
$18.739
100
$1.767830
$176.783
500
$1.667764
$833.882
1000
$1.573363
$1573.363
2309-1DCGI Product Details
2309-1DCGI Overview
Clock generator is packaged in the way of Tube. In the 16-SOIC (0.154, 3.90mm Width) package, there is an embedded clock generator. In this clock generator, LVTTL is used as the input to the clock. 1 circuits are implemented to access the electronic component's full performance. 133MHz is the maximal value for normal operation. Surface Mount-slots make it easy to mount this electronic component on panels. There should be 3V~3.6V provided with this RF synthesizer. As determined by the test statistics, the ambient temperature should be set to -40°C~85°C. As the name suggests, this is a clock generator that is compatible with LVTTL logic levels. As far as this electronic part is concerned, it can be classified as a Zero Delay Buffer component. According to the base part number IDT2309-1, its related parts can be found.
2309-1DCGI Features
Available in the 16-SOIC (0.154, 3.90mm Width)
2309-1DCGI Applications
There are a lot of Renesas Electronics America Inc. 2309-1DCGI Clock Generators applications.
10 Gigabit Ethernet
HDD recorders
PCI express cards
High-speed communication applications
Clock signals to the high-speed Digital RF circuits