HifiSpeaker.wiki | Recent Update | Privacy-Policy | About Us | Contact

ADC LT-32



Share
Pin
Send
Share
Send
Share

Brand: ADC

The ADC LT-32 is a high-performance analog-to-digital converter (ADC) designed by Analog Devices. It is a low-power, 12-bit, 1-MSPS converter designed for space-constrained and portable applications.Some key features of the ADC LT-32 include:1. Low power consumption: The ADC LT-32 draws just 330 µA from a 3-volt supply, making it suitable for portable applications.2. High speed: With a maximum sampling rate of 1 MSPS, the ADC LT-32 can capture signals quickly and accurately.3. Accuracy: The 12-bit resolution of the ADC LT-32 provides a maximum accuracy of ±0.5 LSB (least significant bit).4. Low noise: The ADC LT-32 features a low noise floor of just 120 µV p-p.5. Wide input voltage range: The converter accepts input signals from 1.8 to 3.6 volts, making it suitable for a wide range of applications.6. Programmable inputs: The ADC LT-32 allows users to select the input channel and input multiplexer using a 3-bit input channel code.7. Differential and single-ended operation: The ADC LT-32 can operate in differential or single-ended mode, providing flexibility in connecting to signals.8. Accurate and fast settling: The ADC LT-32 settles to its final value in just 6 µs.Overall, the ADC LT-32 is a versatile and high-performance ADC that can be used in a wide range of applications, from portable measurement devices to space-constrained systems where low power consumption is critical.



  • Type: Moving Magnet
  • Output Voltage: mV
  • Freq Response: 20Hz - 19kHz
  • Tracking Force: 1.0 - 2.5 g
  • Mass: 5.75 g
  • Channel Separation: 23 dB
  • Channel Balance: 2 dB
  • Load Impedance: 47k Ω
  • Output Impedance:
  • Stylus: RLM-1
  • Stylus Tip: 0.7 mil Spherical
  • Cantilever:
  • Dynamic Compliance:
  • Static Compliance:
  • Price: $61

ADC LT-32

ADC LT-32

ADC LT-32

ADC LT-32

ADC LT-32

ADC LT-32

ADC LT-32

ADC LT-32

ADC LT-32

ADC LT-32

ADC LT-32



Share
Pin
Send
Share
Send
Share