Manufacturer Part Number
PCM1742KE
Manufacturer
Texas Instruments
Introduction
The PCM1742KE is a high-performance Audio DAC suitable for professional and consumer audio applications, offering premium sound quality and features.
Product Features and Performance
24-bit resolution ensuring high fidelity sound reproduction
Dual channel DAC for stereo output
Maximum Sampling Rate of 200k providing excellent audio dynamic range
I2S Data Interface for seamless integration with most digital audio equipment
Compatible with both analog and digital power supply sources
Supports voltage supply from 3V to 3.6V and 5V for flexible usage
Product Advantages
High-resolution audio output enhances user listening experience
Dual channel support enables stereo audio applications
Wide operating temperature range from -25°C to 85°C ensuring reliability in various environments
Compact 16-SSOP packaging suitable for space-constrained applications
Key Technical Parameters
Type: DAC, Audio
Number of Channels: 2
Resolution: 24 Bits
Sampling Rate: 200k Per Second
Data Interface: I2S
Voltage Supply: 3V ~ 3.6V, 5V
Operating Temperature: -25°C ~ 85°C
Quality and Safety Features
Robust surface mount package for enhanced durability
Extensive range of operational temperatures ensuring stability and performance reliability
Compatibility
Easily interfaced with most modern audio processing equipment through I2S
Versatile power requirements compatible with commonly used voltage supplies in audio equipment
Application Areas
Home theater systems
Professional audio recording equipment
High-fidelity audio playback devices
Product Lifecycle
Product status is active
Continually supported with updates, replacements, or upgrades not currently anticipated
Several Key Reasons to Choose This Product
Superior sound quality with 24-bit high-resolution digital-to-analog conversion
Flexible power compatibility increases usage scenarios
Compact and reliable packaging suitable for professional and home audio systems
Wide operational temperature range ensuring performance across various climatic conditions