


Vishay / Dale
CRA06P043300RJTA
Why Choose Us?
Professional Platform
B2B & B2C purchasingDelivery at full speed
1-2 days deliveryWide variety
Original manufacturers365 days guarantee
Responsible qualityTech Specifications
CRA06P043300RJTA Description
CRA06P043300RJTA Description
The CRA06P043300RJTA is a surface-mount resistor network from Vishay Dale's CRA06 series, designed for compact PCB applications requiring high-density component placement. This 2-resistor isolated array features a 0606 concave package (1.60mm x 1.60mm) with a low-profile height of 0.70mm, making it ideal for space-constrained designs. Each resistor offers a 300Ω resistance with a ±5% tolerance and a ±200ppm/°C temperature coefficient, ensuring stable performance across varying environmental conditions. The array operates at 62.5mW power per element and is RoHS3 compliant, meeting modern environmental standards. Packaged in tape & reel (TR), it supports automated assembly processes.
CRA06P043300RJTA Features
- Compact 0606 Footprint: Saves board space compared to discrete resistors.
- High Reliability: ±200ppm/°C TCR ensures minimal resistance drift under thermal stress.
- Isolated Circuit Design: Prevents crosstalk between resistors, suitable for precision applications.
- Automation-Friendly: Tape & reel packaging streamlines high-volume production.
- RoHS3 Compliance: Aligns with global environmental regulations.
- Wide MSL Rating (Level 1): Unlimited shelf life and no baking requirements before reflow.
CRA06P043300RJTA Applications
This resistor array excels in:
- Consumer Electronics: Voltage division in wearables, smartphones, and IoT devices.
- Signal Conditioning: Pull-up/pull-down networks in digital circuits (e.g., I²C, SPI).
- Industrial Controls: Sensor calibration and feedback loops in automation systems.
- Medical Devices: Low-noise analog circuits where space and reliability are critical.
- Automotive Electronics: ECU signal processing (non-safety-critical).
Conclusion of CRA06P043300RJTA
The CRA06P043300RJTA combines miniaturization, stability, and ease of integration, making it a pragmatic choice for modern electronics. While obsolete, its proven performance in high-density designs ensures relevance in legacy or cost-sensitive projects. Engineers should evaluate alternatives for new designs but can leverage this array’s balanced specs for prototyping or repairs. Vishay Dale’s reputation for quality further underscores its dependability in demanding environments.



.png)









.png?x-oss-process=image/format,webp/resize,h_32)










