NB2309AC1DG Overview
This clock IC is packaged using the Tube method. The 16-SOIC (0.154, 3.90mm Width) package includes this clock generator. In the reflowing process, this clock generator ic is able to maintain a maximum temperature of 260. In it, there are 16 terminations to be found. This time clock generator should be voltaged at 3.3V. A clock generator's input is called Clock and it is designed as the input for this clock generator. For full access to the electronic component's capabilities, 1 circuits are implemented. A clock-based RF synthesizer that provides a max frequency of 133.33MHz is available. With the Surface Mount, it is easy to install this electric component on the panel. Clock generators can take up to 3.6V of power as a maximum supply voltageThis frequency synthesizer requires a supply voltage above 3V to be safe. This clock PLL works with a supply voltage of 3V~3.6V. Using the test statistics, it is estimated that the ambient temperature should be set to 0°C~70°C. A Zero Delay Buffer is a classification for the electronic part in question. Microprocessors are specifically designed to use this clock-generating IC, which has a 16-bit output. This part number NB2309A is related to the following electrical components. PF synthesizers is equipped with 16 pins. PLL clock can handle a voltage of 3.3V as its supply voltage. There is a low timing skew at 0.25 nsmax with this RF synthesizer. The clock generator is configured with 8 pins for enabling true outputs.
NB2309AC1DG Features
Available in the 16-SOIC (0.154, 3.90mm Width)
Supply voltage of 3.3V
Operating supply voltage of 3.3V
8 true outputs
NB2309AC1DG Applications
There are a lot of ON Semiconductor
NB2309AC1DG Clock Generators applications.
- Digital circuits
- Wireless base station for LTE, LTE-advanced
- Picocells, femtocells and small cells
- Sampling clocks for ADC and DAC
- 1 Gigabit Ethernet
- 10 Gigabit Ethernet
- FPGA and processor clocks
- Line cards used in telephone exchange
- Fiber Channel
- PCI express cards
