KDS DSB211SDM SMD TCXO Crystal Oscillator 13 to 52 MHz

Name: KDS DSB211SDM SMD TCXO Crystal Oscillator 13 to 52 MHz
Brand: Shenzhen Glow Electronic Technology Co., Ltd.
SKU: 1831005591_1
Price: 0.40 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Precise Frequency Generation: The KDS DSB211SDM SMD TCXO Crystal Oscillator delivers stable frequency outputs ranging from 13 to 52 MHz, ideal for timing-critical applications.
Temperature Compensation: Designed with temperature-compensated technology to maintain accuracy across a wide operating temperature range, ensuring reliability in fluctuating environments.

Key features

1. Temperature-Compensated Crystal Technology

With a temperature-compensated crystal oscillator (TCXO), maintain high frequency accuracy (±0.5 ppm to ±10 ppm) across a wide temperature range, ensuring stable performance in fluctuating environments*.

2. Surface Mount Design for Seamless Integration

With a compact SMD package, reduce assembly time by up to 30% compared to through-hole components, enabling easy integration into space-constrained electronics*.

3. Broad Frequency Range for Versatile Applications

With a 13–52 MHz frequency range, adapt to diverse applications like IoT devices, communication systems, and embedded timing circuits—offering 2x the flexibility of fixed-frequency modules*.

4. Ceramic Resonator for Durability

With a ceramic resonator body, ensure long-term reliability and resistance to mechanical shock, outperforming plastic-based oscillators in harsh industrial settings*.

5. Customizable Frequency Solutions

Choose from pre-configured models (e.g., N40.0, N52.0) to match exact frequency needs, reducing design adjustments compared to generic oscillators*.

Product details

The KDS DSB211SDM SMD TCXO Crystal Oscillator delivers precise frequency stability across a wide range (13–52 MHz) in compact SMD packaging. Designed for temperature-compensated performance, it ensures reliability in electronic systems requiring stable timing, such as IoT devices, communication modules, and industrial control systems.

Technical specifications

Feature	Specification	Application Scenario
Material	Ceramic resonator with SMD packaging	High-temperature environments (e.g., automotive electronics)
Frequency Range	13–52 MHz adjustable	Customized timing for wireless sensors or GPS modules
Temperature Stability	±2.0 ppm (-20°C to +70°C)	Precision-critical applications like medical devices
Compliance	RoHS, CE certified	Global regulatory compliance for consumer electronics

Customization guide

Adjustable frequency settings (13–52 MHz) and temperature compensation parameters allow customization to meet specific timing requirements for embedded systems or high-frequency communication protocols.

Get inspired

With its versatile frequency range and SMD design, the KDS DSB211SDM enables engineers to build compact, reliable systems for smart home devices, wearable tech, or industrial IoT networks.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Frequency Range	13–32 MHz	24–48 MHz	13–52 MHz
Stability	±5.0 ppm	±3.0 ppm	±2.0 ppm
Power Consumption	8 mA	6 mA	4 mA
Operating Temp.	-20°C to +70°C	-30°C to +85°C	-40°C to +85°C

Supplier's note

Technical Breakthroughs:
- Temperature Compensation: The Pro Model’s ±2.0 ppm stability outperforms industry standards, enabling use in extreme environments.
- SMD Packaging: Compact design reduces PCB space by 30% compared to through-hole alternatives.
- Wider Frequency Range: The 13–52 MHz span covers IoT, telecom, and GPS applications, eliminating the need for multiple components.
Version Selection Guidance:
- Base Model: Ideal for cost-sensitive projects (e.g., basic sensors) requiring up to 32 MHz.
- Advanced Model: Suitable for industrial systems needing broader temperature tolerance (-30°C to +85°C).
- Pro Model: Choose for mission-critical applications like aerospace or medical devices, where ultra-stable performance and low power consumption are paramount.

With the Pro Model’s ±2.0 ppm stability, you can ensure precise synchronization in 5G base stations. Pair its low power draw with high-frequency capability to optimize battery life in wearable devices.

Frequently asked questions

Which KDS DSB211SDM SMD TCXO model is best for applications requiring 40 MHz frequency?
Why is ceramic used in KDS DSB211SDM TCXO instead of plastic packaging?
Is the KDS DSB211SDM SMD TCXO RoHS-compliant and suitable for medical devices?
Can KDS DSB211SDM TCXO frequencies be customized beyond 52 MHz?
Why choose SMD packaging for KDS DSB211SDM TCXO over through-hole components?
Are KDS DSB211SDM TCXOs suitable for GPS modules requiring 19.2 MHz frequency?
How does KDS DSB211SDM TCXO maintain accuracy in extreme temperatures?
What applications benefit most from the 13–52 MHz frequency range of KDS DSB211SDM?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Industry Standard XO (Crystal Oscillator)	Basic timing in consumer electronics (e.g., clocks, toys)	Frequency Stability: ±100 ppm (-20°C to 70°C) (per ITU-T G.826) Power: 10 mW	Low cost, minimal power consumption Simple design for mass production	Poor temperature stability Limited to non-critical applications
Our Base TCXO (13-52 MHz)	Smartphones, IoT devices, GPS modules	Frequency Stability: ±2 ppm (-20°C to 70°C) (per IEC 60718) Power: 12 mW ▲	Improved temperature stability vs XO Compact SMD packaging	Narrower temperature range than advanced models Higher cost than XO
Our Advanced TCXO (13-52 MHz)	Precision instruments, 5G base stations	Frequency Stability: ±0.5 ppm (-40°C to 85°C) (per MIL-STD-810) Power: 15 mW ▲▲	Best-in-class stability across extreme temps Wide operating range	Higher cost Larger footprint than MEMS oscillators
Competitor’s TCXO (10-30 MHz)	Wearables, automotive sensors	Frequency Stability: ±1 ppm (-20°C to 70°C) (per JEDEC MO-220) Power: 14 mW	Moderate cost-performance balance Lower power than advanced models	Narrower frequency range vs our product Less stable at extreme temps
OCXO (Oven-Compensated)	High-end telecom, aerospace systems	Frequency Stability: ±0.1 ppm (-55°C to 125°C) (per Telcordia GR-1221) Power: 200 mW	Ultra-high stability for critical systems Stable in harsh environments	High power consumption Bulky design Expensive
MEMS Oscillator	Space-constrained devices (e.g., drones)	Frequency Stability: ±5 ppm (-40°C to 85°C) (per ISO 16750) Power: 8 mW	Tiny form factor Low power consumption Shock/vibration resistant	Lower stability than TCXO/OCXO Not suitable for precision timing