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NB2304AI1DG

3.3V Zero Delay Buffer 133.3MHz NB2304A Clock Generators 8 Pins 8-SOIC (0.154, 3.90mm Width) 8 Terminals Surface Mount 3V~3.6V Tube


  • Manufacturer: ON Semiconductor
  • Nocochips NO: 598-NB2304AI1DG
  • Package: 8-SOIC (0.154, 3.90mm Width)
  • Datasheet: PDF
  • Stock: 511
  • Description: 3.3V Zero Delay Buffer 133.3MHz NB2304A Clock Generators 8 Pins 8-SOIC (0.154, 3.90mm Width) 8 Terminals Surface Mount 3V~3.6V Tube (Kg)

Details

Tags

Parameters
Max Supply Current 45mA
Frequency (Max) 133.3MHz
Input CMOS
Ratio - Input:Output 1:4
PLL Yes
Differential - Input:Output No/No
Prop. Delay@Nom-Sup 0.25 ns
Same Edge Skew-Max (tskwd) 0.2 ns
Number of True Outputs 4
Height 1.5mm
Length 5mm
Width 4mm
RoHS Status ROHS3 Compliant
Lead Free Lead Free
Factory Lead Time 1 Week
Lifecycle Status LIFETIME (Last Updated: 1 month ago)
Mount Surface Mount
Mounting Type Surface Mount
Package / Case 8-SOIC (0.154, 3.90mm Width)
Number of Pins 8
Operating Temperature -40°C~85°C
Packaging Tube
Published 2008
JESD-609 Code e3
Pbfree Code yes
Part Status Obsolete
Moisture Sensitivity Level (MSL) 1 (Unlimited)
Number of Terminations 8
Type Zero Delay Buffer
Terminal Finish Tin (Sn)
Subcategory Clock Drivers
Voltage - Supply 3V~3.6V
Terminal Position DUAL
Terminal Form GULL WING
Peak Reflow Temperature (Cel) 260
Number of Functions 1
Supply Voltage 3.3V
Frequency 133MHz
Time@Peak Reflow Temperature-Max (s) 40
Base Part Number NB2304A
Pin Count 8
Qualification Status Not Qualified
Operating Supply Voltage 3.3V
Supply Voltage-Max (Vsup) 3.6V
Supply Voltage-Min (Vsup) 3V
Number of Circuits 1
Nominal Supply Current 45mA

NB2304AI1DG Overview


A clock integrated circuit is packaged in a Tube-shaped package because it is for use as a clock. There is a clock generator embedded in the 8-SOIC (0.154, 3.90mm Width) package. In the reflowing process, this clock generator ic is able to maintain a maximum temperature of 260. As you can see, it consists of 8 terminations. Clock generator ics require a voltage of 3.3V. A clock generator's input is called CMOS and it is designed as the input for this clock generator. There are 1 circuits implemented in order to achieve full performance from this electronic part. An upper frequency limit of 133.3MHz Max can be achieved with this clock-based frequency synthesizer. The Surface Mount allows this electrical component to be easily installed on the panel. Approximately 3.6V is the maximum supply voltage needed by this time clock generator. Safety considerations dictate that the supply voltage for this frequency synthesizer should be greater than 3V. As far as the supply voltage is concerned, clock PLL can be used with 3V~3.6V. The ambient temperature should be set at -40°C~85°C, which is estimated by the test statistics. It has been classified as a Zero Delay Buffer electronic part, which means that it is a semiconductor. Microprocessors are specifically designed to use this clock-generating IC, which has a 8-bit output. According to the base part number, its related parts can be founded. There is a 8 pin that is available on the digital clock generator. Supply voltage 3.3V is what time clock generator can handle. Clock Drivers-type frequency generators are usually classified as this type. The maximal same edge skew (tskwd) can not be exceeded. There are 4 pins that are configured to enable high true output on this analog clock generator. By operating at a frequency of 133MHz, frequency generator is able to achieve high efficiency. During these clock generator operations, the maximum current supplied reaches 45mA.

NB2304AI1DG Features


Available in the 8-SOIC (0.154, 3.90mm Width)
Supply voltage of 3.3V
Operating supply voltage of 3.3V
4 true outputs

NB2304AI1DG Applications


There are a lot of ON Semiconductor NB2304AI1DG Clock Generators applications.

  • Signal generator
  • Satellite receivers
  • Set-top boxes
  • Satellite navigation communication
  • Frequency synthesis
  • Instrument
  • Test and instrumentation equipment
  • CPUs
  • Signal frequency synthesis circuits
  • Signal modulation and demodulation

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