8-/4-/2-Channel, 12-Bit, Simultaneous-Sampling ADCs with ±10V, ±5V, and 0 to +5V Analog Input Ranges

Please check latest availability status for a specific part variant.


The MAX1304–MAX1306/MAX1308–MAX1310/MAX1312–MAX1314 12-bit, analog-to-digital converters (ADCs) offer eight, four, or two independent input channels. Independent track-and-hold (T/H) circuitry provides simultaneous sampling for each channel. The MAX1304/MAX1305/MAX1306 provide a 0 to +5V input range with ±6V fault-tolerant inputs. The MAX1308/MAX1309/MAX1310 provide a ±5V input range with ±16.5V fault-tolerant inputs. The MAX1312/MAX1313/MAX1314 have a ±10V input range with ±16.5V fault-tolerant inputs. These ADCs convert two channels in 0.9µs, and up to eight channels in 1.98µs, with an 8-channel throughput of 456ksps per channel. Other features include a 20MHz T/H input bandwidth, internal clock, internal (+2.5V) or external (+2.0V to +3.0V) reference, and power-saving modes.

A 20MHz, 12-bit, bidirectional parallel data bus provides the conversion results and accepts digital inputs that activate each channel individually.

All devices operate from a +4.75V to +5.25V analog supply and a +2.7V to +5.25V digital supply and consume 57mA total supply current when fully operational.

Each device is available in a 48-pin 7mm x 7mm LQFP package and operates over the extended -40°C to +85°C temperature range.
MAX1304, MAX1305, MAX1306, MAX1308, MAX1309, MAX1310, MAX1312, MAX1313, MAX1314: Functional Diagram MAX1304, MAX1305, MAX1306, MAX1308, MAX1309, MAX1310, MAX1312, MAX1313, MAX1314: Functional Diagram Enlarge+

Key Features

  • Up to Eight Channels of Simultaneous Sampling
    • 8ns Aperture Delay
    • 100ps Channel-to-Channel T/H Match
  • Extended Input Ranges
    • 0 to +5V (MAX1304/MAX1305/MAX1306)
    • -5V to +5V (MAX1308/MAX1309/MAX1310)
    • -10V to +10V (MAX1312/MAX1313/MAX1314)
  • Fast Conversion Time
    • One Channel in 0.72µs
    • Two Channels in 0.9µs
    • Four Channels in 1.26µs
    • Eight Channels in 1.98µs
  • High Throughput
    • 1075ksps/Channel for One Channel
    • 901ksps/Channel for Two Channels
    • 680ksps/Channel for Four Channels
    • 456ksps/Channel for Eight Channels
  • ±1 LSB INL, ±0.9 LSB DNL (max)
  • 84dBc SFDR, -86dBc THD, 71dB SINAD, fIN = 500kHz at 0.4dBFS
  • 12-Bit, 20MHz, Parallel Interface
  • Internal or External Clock
  • +2.5V Internal Reference or +2.0V to +3.0V External Reference
  • +5V Analog Supply, +3V to +5V Digital Supply
    • 55mA Analog Supply Current
    • 1.3mA Digital Supply Current
    • Shutdown and Power-Saving Modes
  • 48-Pin LQFP Package (7mm x 7mm Footprint)


  • Multiphase Motor Control
  • Multiphase Power Monitoring
  • Power-Factor Monitoring
  • Power-Grid Synchronization
  • SIN/COS Position Encoder
  • Vibration and Waveform Analysis

See parametric specs for Precision ADCs (< 5Msps) (432)

Part NumberResolution
# Input ChannelsConv. Rate
ADC ArchitectureData BusDiff/S.E. InputInternal VREF
External VREF
External VREF
Unipolar VIN
Bipolar VIN
(ADC)(max)(nominal)(min)(max)(max)(max)(See Notes)
MAX1304 1281075SARµP/12S.E. Only2.5235-71-860.5
$12.30 @1k
MAX1305 45-
$8.87 @1k
MAX1308 8-5
$15.20 @1k
MAX1309 4-5
$12.52 @1k
MAX1310 2-5
$8.68 @1k
MAX1312 8-10
$15.03 @1k
MAX1313 4-10
$11.20 @1k
MAX1314 2-10
$9.24 @1k

Pricing Notes:
This pricing is BUDGETARY, for comparing similar parts. Prices are in U.S. dollars and subject to change. Quantity pricing may vary substantially and international prices may differ due to local duties, taxes, fees, and exchange rates. For volume-specific and version-specific prices and delivery, please see the price and availability page or contact an authorized distributor.

MAX1308EVB16: Evaluation Kit/Evaluation System for the MAX1308
MAX1308EVKIT: Evaluation Kit/Evaluation System for the MAX1308
Request Reliability Report for: MAX1310 
Device   Fab Process   Technology   Sample size   Rejects   FIT at 25°C   FIT at 55°C   Material Composition  

Note : The failure rates are summarized by technology and mapped to the associated material part numbers. The failure rates are highly dependent on the number of units tested.

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