Menu
Your Cart

MCP3008-I/P - 8-Channel 10-Bit ADC With SPI Interface - 200 kSPS, Single, 2.7 V, 5.5 V, DIP

MCP3008-I/P - 8-Channel 10-Bit ADC With SPI Interface - 200 kSPS, Single, 2.7 V, 5.5 V, DIP
MCP3008-I/P - 8-Channel 10-Bit ADC With SPI Interface - 200 kSPS, Single, 2.7 V, 5.5 V, DIP
MCP3008-I/P - 8-Channel 10-Bit ADC With SPI Interface - 200 kSPS, Single, 2.7 V, 5.5 V, DIP
-20 % Pre-Order
MCP3008-I/P - 8-Channel 10-Bit ADC With SPI Interface - 200 kSPS, Single, 2.7 V, 5.5 V, DIP
MCP3008-I/P - 8-Channel 10-Bit ADC With SPI Interface - 200 kSPS, Single, 2.7 V, 5.5 V, DIP
MCP3008-I/P - 8-Channel 10-Bit ADC With SPI Interface - 200 kSPS, Single, 2.7 V, 5.5 V, DIP
MCP3008-I/P - 8-Channel 10-Bit ADC With SPI Interface - 200 kSPS, Single, 2.7 V, 5.5 V, DIP
  • Stock: Pre-Order
  • Brand: MICROCHIP
  • Model: MCP3008-I/P
  • Weight: 50.00g
  • SKU: MCP3008-I/P
Products Sold: 16
Product Views: 15795
₹399.00
₹499.00

The MCP3008 device is a successive approximation 10-bit analogue-to-digital converter with on-board sample and hold circuitry. It is programmable to provide four pseudo-differential input pairs or eight single-ended inputs. Differential Nonlinearity (DNL) and Integral Nonlinearity (INL) are specified at ±1 LSB. Communication with the devices is accomplished using a simple serial interface compatible with the SPI protocol.

Features

  • 10-bit resolution
  • ± 1 LSB max DNL
  • ± 1 LSB max INL
  • 8 input channels
  • Analog inputs programmable as single-ended orpseudo-differential pairs
  • On-chip sample and hold
  • SPI serial interface (modes 0,0 and 1,1)
  • Single supply operation: 2.7V - 5.5V
  • 200 ksps max. sampling rate at VDD = 5V
  • 75 ksps max. sampling rate at VDD = 2.7V
  • Low power CMOS technology
  • 5 nA typical standby current, 2 µA max.
  • 500 µA max. active current at 5V
  • Industrial temp range: -40°C to +85°C

Download Technical Datasheet

Write a review

Please login or register to review
Site uses Cookies
This site uses cookies to provide and improve your experience. By continuing to use this site, you agree to accept these cookies.