Programmable silicon oscillator for clock generation
The LTC6902CMS#TRPBF is a silicon oscillator from Analog Devices that generates a clock output from 100kHz to 20MHz without requiring an external crystal or resonator — the frequency is set by a single external resistor. It operates from a 2.7V to 5.5V supply rail, drawing 2.5 mA typical supply current, making it suitable for both 3.3V and 5V logic systems in power-conscious designs.
Frequency programming and supply flexibility
The 100kHz to 20MHz span is set by one resistor to ground — no crystal, no ceramic resonator, no external load capacitors. This cuts BOM count and board area compared to a crystal-based oscillator. The 2.7V to 5.5V supply range means the same part works on a 3.3V FPGA bank or a 5V microcontroller rail without a separate regulator for the oscillator. At 2.5 mA supply current, the LTC6902 adds less than 10 mW to the power budget at 3.3V — negligible in a system drawing hundreds of milliamps.
Active production and ordering options
ROHS3 compliant per, with no exemption conflicts for EU or UKCA markets. Supplied in Tape & Reel (TR) or Cut Tape (CT) — the #TRPBF suffix denotes the reeled variant for automated pick-and-place assembly.
Package and footprint for layout
Housed in a 10-MSOP package (3.00mm width, 0.118" body), the LTC6902CMS#TRPBF fits a compact footprint with 0.50mm lead pitch — typical for a 4-layer board with a ground plane under the device. Surface-mount only — the 10-MSOP is not hand-solder friendly without a hot-air station or reflow oven.
