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Pin Configurable/Selectable Oscillators

Image Part Number Description / PDF Quantity Rfq
DSC613RA2A-0106

DSC613RA2A-0106

Roving Networks / Microchip Technology

3-OUTPUT MEMS CLOCK GENERATOR 2.

0
DSC6122CI2A-00AUT

DSC6122CI2A-00AUT

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

2000
DSC6121HI2A-00AJT

DSC6121HI2A-00AJT

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1000
DSC6121HI2A-00AQ

DSC6121HI2A-00AQ

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

800
DSC6023HI2A-00A5T

DSC6023HI2A-00A5T

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1000
DSC613PI3A-0105

DSC613PI3A-0105

Roving Networks / Microchip Technology

3-OUTPUT MEMS CLOCK GENERATOR 1.

0
DSC6023HI2A-00A8T

DSC6023HI2A-00A8T

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1000
DSC6122CI2A-00B3T

DSC6122CI2A-00B3T

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

2000
DSC6021CI2A-00A0T

DSC6021CI2A-00A0T

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

2000
DSC6122CI2A-00AV

DSC6122CI2A-00AV

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1100
DSC6021CI2A-009UT

DSC6021CI2A-009UT

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

2000
DSC6021CI2A-00A1

DSC6021CI2A-00A1

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1100
DSC6121HI2A-00AK

DSC6121HI2A-00AK

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

800
DSC6122CI2A-00AT

DSC6122CI2A-00AT

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1100
DSC6021MI1A-0050

DSC6021MI1A-0050

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1000
DSC6121HI2A-0090T

DSC6121HI2A-0090T

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1000
DSC6023HI2A-00A9T

DSC6023HI2A-00A9T

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1000
DSC6021CI2A-00A3

DSC6021CI2A-00A3

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1100
DSC6021CI2A-00A1T

DSC6021CI2A-00A1T

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

2000
DSC6021CI2A-009W

DSC6021CI2A-009W

Roving Networks / Microchip Technology

MEMS OSC XO 1.71V-3.63V 4SMD

1100

Pin Configurable/Selectable Oscillators

1. Overview

Pin configurable/selectable oscillators are frequency generation devices that allow users to adjust output parameters (frequency, mode, or configuration) through physical pin settings or control signals. Unlike fixed-frequency oscillators, these devices offer flexibility for multi-application use cases. Their importance stems from adaptability in modern electronics, including communication systems, industrial automation, and IoT devices, where dynamic frequency adjustments reduce component redundancy and simplify design scalability.

2. Major Types and Functional Classification

TypeFunctional CharacteristicsApplication Examples
Frequency Selectable OscillatorsSwitch between predefined frequencies via pin voltage levels or logic inputsWireless base stations, multi-band routers
Pin-Controlled Multi-Frequency OscillatorsSupport continuous frequency tuning through analog voltage or digital codes on control pinsTest equipment, software-defined radios
Programmable Selectable OscillatorsUse I C/SPI interfaces for configuration storage and dynamic frequency changesEmbedded systems, industrial controllers
Temperature-Compensated Pin Configurable OscillatorsCombine pin-selectable frequencies with onboard temperature compensation circuitsAutomotive sensors, precision instrumentation

3. Structure and Components

A typical pin configurable oscillator consists of:

  • Quartz crystal/resonator as the primary frequency reference
  • Voltage-Controlled Oscillator (VCO) core with programmable dividers
  • Digital/analog control circuits for pin input decoding
  • Output drivers (CMOS, LVDS, or LVPECL standards)
  • On-chip memory for configuration retention (in programmable types)

4. Key Technical Specifications

ParameterTypical ValuesImportance
Frequency Range1kHz - 1GHzDetermines application suitability
Stability 20ppm to 100ppmImpacts long-term reliability
Operating Temperature-40 C to +125 CEnvironmental robustness
Supply Voltage1.8V - 5.5VCompatibility with system power rails
Phase Noise/Jitter0.1ps RMS to 1ps RMSCritical for high-speed signaling
Configuration Time1ms - 100msSystem responsiveness factor

5. Application Fields

Major industries include:

  • Telecommunications: 5G NR base stations, optical transceivers
  • Industrial: Precision test equipment, PLC controllers
  • Consumer: Smartphones with multi-network support
  • Automotive: ADAS radar systems, ECU clocking
  • Medical: MRI timing circuits, patient monitoring devices

6. Leading Manufacturers and Products

ManufacturerRepresentative ProductKey Features
Texas InstrumentsLMK003044-channel output, 100fs jitter
STMicroelectronicsVCO10001MHz-1GHz tuning range
Microchip TechnologyDSC6000MEMS-based programmable oscillator
NXP SemiconductorsFXLS8971Low-power accelerometer-coupled clocking
Renesas ElectronicsIDT5P49V60PCIe Gen4 compliant timing solution

7. Selection Guidelines

Key considerations:

  1. Frequency requirements: Range, step size, and switching speed
  2. Control interface: Hardware pin control vs. digital programming
  3. Environmental conditions: Temperature, vibration, and EMI tolerance
  4. Power constraints: Supply voltage and consumption limits
  5. Package compatibility: Footprint and thermal management needs
  6. Cost vs. performance trade-offs

8. Industry Trends

Future developments focus on:

  • Higher integration with clock distribution functions
  • Sub-picosecond jitter performance for 800Gbps+ optical systems
  • AI-driven frequency optimization in smart devices
  • Automotive-grade devices meeting AEC-Q100 standards
  • Green manufacturing with lead-free packaging

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