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DSA321SC-19.200MHZ Specifications

Detailed technical information and Application Scenarios

Product Details

PartNumberManufactorQuantityAvailability
DSA321SC-19.200MHZKDS410Yes

### **Part Number: DSA321SC-19.

Part Number: DSA321SC-19.200MHZ

Manufacturer: KDS (Daishinku Corp.)

#### Specifications:

  • Frequency: 19.200 MHz
  • Package Type: SMD (Surface Mount Device)
  • Frequency Stability: ±20 ppm (or as per datasheet)
  • Operating Temperature Range: -20°C to +70°C (or specified range)
  • Load Capacitance: Standard (typically 12pF or as per datasheet)
  • Supply Voltage: 3.3V (or as specified)
  • Output Type: CMOS or HCMOS (as per variant)
  • Aging: ±3 ppm/year (typical)

#### Descriptions:

The DSA321SC-19.200MHZ is a high-precision SMD crystal oscillator from KDS, designed for stable frequency generation in electronic circuits. It is commonly used in communication devices, embedded systems, and timing applications requiring a 19.2 MHz reference clock.

#### Features:

  • Compact SMD package for space-constrained designs
  • Low jitter for reliable signal integrity
  • High frequency stability (±20 ppm or better)
  • RoHS compliant (lead-free)
  • Wide operating temperature range for industrial applications
  • Fast start-up time (typically <10ms)
  • Low power consumption

For exact specifications, refer to the official KDS datasheet.

# Technical Analysis of the DSA321SC-19.200MHz Crystal Oscillator

## 1. Practical Application Scenarios

The DSA321SC-19.200MHz is a high-precision surface-mount crystal oscillator (XO) manufactured by KDS, designed for stable frequency generation in demanding electronic systems. Its key applications include:

A. Telecommunications and Networking Equipment

The 19.200MHz frequency is widely used in Ethernet controllers, switches, and routers for clock synchronization. The DSA321SC’s low jitter and high stability (±50ppm or better) ensure reliable data transmission and reduced packet loss in high-speed networks.

B. Embedded Systems and Microcontrollers

Many microcontrollers (e.g., ARM Cortex-M, STM32) require an external oscillator for timing and peripheral synchronization. The DSA321SC provides a stable reference clock, improving ADC/DAC accuracy and real-time task scheduling in industrial automation and IoT devices.

C. Wireless Communication Modules

Bluetooth, Wi-Fi, and Zigbee transceivers often use 19.200MHz as a base frequency for RF signal processing. The oscillator’s low phase noise minimizes interference, enhancing signal integrity in crowded RF environments.

D. Consumer Electronics

Smart TVs, set-top boxes, and gaming consoles utilize this oscillator for HDMI clock generation and audio/video synchronization, ensuring smooth playback and low latency.

## 2. Common Design-Phase Pitfalls and Avoidance Strategies

A. Incorrect Load Capacitance Matching

Pitfall: Mismatched load capacitors can cause frequency drift or startup failures.

Solution: Verify the oscillator’s specified load capacitance (e.g., 12pF or 18pF) and match PCB traces with appropriate capacitors (CL). Use the formula:

\[ C_L = \frac{(C_1 \times C_2)}{(C_1 + C_2)} + C_{stray} \]

where \( C_{stray} \) accounts for parasitic capacitance.

B. Poor PCB Layout Practices

Pitfall: Long traces or proximity to noise sources (e.g., switching regulators) degrade signal integrity.

Solution:

  • Place the oscillator close to the target IC.
  • Use a ground plane beneath the oscillator to minimize EMI.
  • Avoid routing clock signals near high-current paths.

C. Inadequate Power Supply Decoupling

Pitfall: Voltage ripple induces jitter or oscillator instability.

Solution: Place a 0.1µF ceramic capacitor near the VDD pin and a bulk 10µF capacitor for additional filtering.

D. Ignoring Temperature and Voltage Tolerance

Pitfall: Operating outside the specified range (-40°C to +85°C, 3.3V ±10%) may cause frequency deviation.

Solution: Select a variant with appropriate stability ratings (±25ppm or ±50ppm) based on environmental conditions.

## 3. Key Technical Considerations for Implementation

  • Frequency Stability: Ensure the oscillator meets system timing requirements (±50ppm for most applications, ±25ppm for precision uses).
  • Output Type: The DSA321SC provides a

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