MAX5621:16-Bit DACs with 16-Channel Sample-and-Hold Outputs

16-Bit DACs with 16-Channel Sample-and-Hold Outputs for Applications Where a High Number of Programmable Voltages are Required

The MAX5621/MAX5622/MAX5623 are 16-bit digital-to-analog converters (DACs) with 16 sample-and-hold (SHA) outputs for applications where a high number of programmable voltages are required. These devices include a clock oscillator and a sequencer that updates the DAC with codes from an internal SRAM. No external components are required to set offset and gain. The MAX5621/MAX5622/MAX5623 feature a -4.5V to +9.2V output voltage range. Other features include a 200µV/step resolution, with output linearity error, typically 0.005% of full-scale range (FSR). The 100kHz refresh rate updates each SHA every 320µs, resulting in negligible output droop. Remote ground sensing allows the outputs to be referenced to the local ground of a separate device. These devices are controlled through a 20MHz SPI™/QSPI™/MICROWIRE™-compatible 3-wire serial interface. Immediate update mode allows any channel's output to be updated within 20µs. Burst Mode® allows multiple values to be loaded into memory in a single, high-speed data burst. All channels are updated within 330µs after data has been loaded. Each device features an output clamp and output resistors for filtering. The MAX5621 features a 50Ω output impedance and is capable of driving up to 250pF of output capacitance. The MAX5622 features a 500Ω output impedance and is capable of driving up to 10nF of output capacitance. The MAX5623 features a 1kΩ output impedance and is capable of driving up to 10nF of output capacitance. The MAX5621/MAX5622/MAX5623 are available in 64-pin TQFP (12mm x 12mm) and 68-pin thin QFN (10mm x 10mm) packages.

Key Features
  • Integrated 16-Bit DAC and 16-Channel SHA with SRAM and Sequencer
  • 16 Voltage Outputs
  • 0.005% Output Linearity
  • 200µV Output Resolution
  • Flexible Output Voltage Range
  • Remote Ground Sensing
  • Fast Sequential Loading: 1.3µs per Register
  • Burst and Immediate Mode Addressing
  • No External Components Required for Setting Gain and Offset
  • Integrated Output Clamp Diodes
  • Three Output Impedance Options
    • MAX5621 (50Ω), MAX5622 (500Ω), and MAX5623 (1kΩ)
MAX5621, MAX5622, MAX5623: Functional Block Diagram
MAX5621, MAX5622, MAX5623: Functional Block Diagram
Applications/Uses
  • Automated Test Equipment (ATE)
  • Industrial Process Controls
  • Instrumentation
  • MEMS Mirror Servo Control
DataSheet
titleDownload file
MAX5621-MAX5623 Data SheetMAX5621-MAX5623.pdf
Parametrics
Part NumberResolution
(bits)
ChannelsOutput TypeReferenceINL
(±LSB)
InterfaceSupply Range
(V)
Supply Range
(V)
ICC
(mA)
Package/PinsOper. Temp.
(°C)
maxminmaxmax
MAX56211616Voltage- BufferedExt.10Serial - SPI5.2511.685LQFP/640 to +85
Related Products
  • MAX5632:16-Bit DACs with 32-Channel Sample-and-Hold Outputs
  • MAX5633:16-Bit DACs with 32-Channel Sample-and-Hold Outputs
  • MAX5631:16-Bit DACs with 32-Channel Sample-and-Hold Outputs
Ordering Information
Part NumberStatusRecommended ReplacementPackageTempRoHS
MAX5621UCBNo Longer AvailableMAX5621UCB+LQFP;64 pin0°C to +85°CSee data sheet
MAX5621UCB+ActiveLQFP,;64 pin;148.8 mm²0°C to +85°CLead Free
MAX5621UCB+TActiveLQFP,;64 pin;148.8 mm²0°C to +85°CLead Free
MAX5621UCB-DNo Longer AvailableMAX5621UCB+LQFP;64 pin0°C to +85°CSee data sheet
MAX5621UCB-TNo Longer AvailableMAX5621UCB+LQFP;64 pin0°C to +85°CSee data sheet
MAX5621UCB-TDNo Longer AvailableMAX5621UCB+LQFP;64 pin0°C to +85°CSee data sheet
MAX5621-MAX5623.pdf MAX5621
Driving Microelectromechanical Systems (MEMS) with Precision Control DS3231M
Damage from a Lightning Bolt or a Spark—It Depends on How Tall You Are! MAX5484
How Signal Chains and PLCs Impact Our Lives MAX5421
Typically Testing “Typical” in a Typical Manner MX7847
功能原理框图 MAX5622