|Category||Data Conversion => DAC (Digital to Analog Converters) => 10-14 bit|
|Description||+3.3 V/+5 V Multiplying 12-Bit DAC With a Serial Interface|
|Datasheet||Download AD7943 datasheet
FEATURES 12-Bit Multiplying DACs Guaranteed Specifications with V/+5 V Supply 0.5 LSBs INL and DNL Low Power: µ W typ Fast Interface 40 ns Strobe Pulse Width 40 ns Write Pulse Width (AD7945, AD7948) Low Glitch: 60 nV-s with Amplifier Connected Fast Settling: to 0.01% with AD843 APPLICATIONS Battery-Powered Instrumentation Laptop Computers Upgrades for All 754x Series DACs (5 V Designs)
The AD7943, AD7945 and AD7948 are fast 12-bit multiplying DACs that operate from a single +5 V supply (Normal Mode) and a single +5 V supply (Biased Mode). The AD7943 has a serial interface, the AD7945 has a 12-bit parallel interface, and the AD7948 has an 8-bit byte interface. They will replace the industry-standard AD7543, AD7545 and AD7548 in many applications, and they offer superior speed and power consumption performance. The AD7943 is available in 16-pin DIP, 16-pin SOP (Small Outline Package) and 20-pin SSOP (Shrink Small Outline Package). The AD7945 is available in 20-pin DIP, 20-pin SOP and 20-pin SSOP. The AD7948 is available in 20-pin DIP, 20-pin SOP and 20-pin SSOP.
12 DATA OVERRIDE LOGIC 12 DAC REGISTER 12 INPUT REGISTERS 12 CSMSB DATA STEERING LOGIC 8 DB7DB0 DGND CONTROL LOGIC LDAC WR CSLSB DF/DOR CTRL
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Parameter ACCURACY Resolution Relative Accuracy Differential Nonlinearity Gain Error TMIN to TMAX Gain Temperature Coefficient 4 Output Leakage Current @ +25°C TMIN to TMAX REFERENCE INPUT Input Resistance DIGITAL INPUTS VINH, Input High Voltage VINL, Input Low Voltage IINH, Input Current CIN, Input Capacitance4 DIGITAL OUTPUT (AD7943 SRO) Output Low Voltage (V OL) Output High Voltage (VOH) POWER REQUIREMENTS VDD Range Power Supply Sensitivity 4 Gain/VDD IDD (AD7943)
(AD7943: VDD VIOUT2 = AGND 0 V; VREF TA = TMIN to TMAX, unless otherwise noted. AD7945, AD7948: VDD VIOUT1 = AGND 0 V; VREF TA = TMIN to TMAX, unless otherwise noted.)
T Grade2, Units Bits LSB max LSB max Test Conditions/Comments 1 LSB 2.44 mV when VREF 10 V All Grades Guaranteed Monotonic over TemperatureSee Terminology Section Typically 20 nA over Temperature Typical Input Resistance 9 k
VINH = VDD 0.1 V min, VINL 0.1 V max. SRO Open Circuit. No STB Signal. Typically 1 µA. Typically 100 µA with a 1 MHz STB Frequency. At Input Levels 0.8 V and 2.4 V, IDD Is Typically 2.5 mA. VINH = VDD 0.1 V min, VINL 0.1 V max. Typically 1 µA. At Input Levels 0.8 V and 2.4 V, IDD Is Typically 2.5 mA.
NOTES 1 The AD7943, AD7945 and AD7948 are specified in the normal current mode configuration and in the biased current mode for single-supply applications. Figures 15 and 16 are examples of normal mode operation. 2 Temperature ranges as follows: B Grades: +85°C; T Grade: +125°C. 3 The T Grade applies to the AD7945 only. 4 Guaranteed by design. Specifications subject to change without notice.
Parameter ACCURACY Resolution Relative Accuracy Differential Nonlinearity Gain Error @ +25°C TMIN to TMAX Gain Temperature Coefficient3 Output Leakage Current @ +25°C TMIN to TMAX Input Resistance @ IOUT2 Pin (AD7943) @ AGND Pin (AD7945, AD7948) DIGITAL INPUTS VINH, Input High Voltage @ VDD +5 V VINH, Input High Voltage @ VDD +3.3 V VINL, Input Low Voltage @ VDD +5 V VINL, Input Low Voltage @ VDD +3.3 V IINH, Input Current CIN, Input Capacitance3 DIGITAL OUTPUT (SRO) Output Low Voltage (VOL) Output High Voltage (VOH) POWER REQUIREMENTS VDD Range Power Supply Sensitivity3 Gain/VDD IDD (AD7943)
(AD7943: VDD VIOUT2 = AGND 1.23 V; VREF TA = TMIN to TMAX, unless otherwise noted. AD7945, AD7948: VDD VIOUT1 = AGND 1.23 V; VREF TA = TMIN to TMAX, unless otherwise noted.)
A Grades2 Units Bits LSB max LSB max LSB max LSB max ppm FSR/°C typ ppm FSR/°C max See Terminology Section VDD nA max nA max k min k min V min V min V max V max µA max pF max For 1 CMOS Load V max V min V min/V max dB typ µA max Test Conditions/Comments 1 LSB 300 µV When 1.23 V and VREF 0 V All Grades Guaranteed Monotonic over TemperatureTypically 20 nA over Temperature This Varies with DAC Input Code
VINH = VDD 0.1 V min, VINL 0.1 V max. SRO Open Circuit; No STB Signal; Typically 1 µA. Typically 100 µA with 1 MHz STB Frequency. VINH = VDD 0.1 V min, VINL 0.1 V max. Typically 1 µA.
NOTES 1 These specifications apply with the devices biased 1.23 V for single supply applications. The model numbering reflects this by means of a "B" suffix (for example: AD7943AN-B). Figure is an example of Biased Mode Operation. 2 Temperature ranges as follows: A Versions: to +85 °C. 3 Guaranteed by design. Specifications subject to change without notice.
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