PDF DAC80 Data sheet ( Hoja de datos )

Número de pieza	DAC80
Descripción	Monolithic 12-Bit DIGITAL-TO-ANALOG CONVERTERS
Fabricantes	Burr-Brown Corporation
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No Preview Available ! ® DAC80 FPO FPO 41% DAC80P Monolithic 12-Bit DIGITAL-TO-ANALOG CONVERTERS FEATURES q INDUSTRY STANDARD PINOUT q FULL ±10V SWING WITH VCC = ±12VDC q DIGITAL INPUTS ARE TTL- AND CMOS-COMPATIBLE q GUARANTEED SPECIFICATIONS WITH ±12V AND ±15V SUPPLIES q ±1/2LSB MAXIMUM NONLINEARITY: 0°C to +70°C q SETTLING TIME: 4µs max to ±0.01% of Full Scale q GUARANTEED MONOTONICITY: 0°C to +70°C q TWO PACKAGE OPTIONS: Hermetic side- brazed ceramic and low-cost molded plastic resistors, as well as low integral and differential lin- earity errors. Innovative circuit design enables the DAC80 to operate at supply voltages as low as ±11.4V with no loss in performance or accuracy over any range of output voltage. The lower power dissipation of this 118-mil by 121-mil chip results in higher reliability and greater long term stability. Burr-Brown has further enhanced the reliability of the monolithic DAC80 by offering a hermetic, side-brazed, ceramic package. In addition, ease of use has been enhanced by eliminating the need for a +5V logic power supply. For applications requiring both reliability and low cost, the DAC80P in a molded plastic package offers the same electrical performance over temperature as the ceramic model. The DAC80P is available with voltage output only. For designs that require a wider temperature range, see Burr-Brown models DAC85H and DAC87H. DESCRIPTION This monolithic digital-to-analog converter is pin-for- pin equivalent to the industry standard DAC80 first introduced by Burr-Brown. Its single-chip design in- cludes the output amplifier and provides a highly stable reference capable of supplying up to 2.5mA to an external load without degradation of D/A perfor- mance. This converter uses proven circuit techniques to pro- vide accurate and reliable performance over tempera- ture and power supply variations. The use of a buried zener diode as the basis for the internal reference contributes to the high stability and low noise of the device. Advanced methods of laser trimming result in precision output current and output amplifier feedback 12-Bit Resistor Ladder Network and Current Switches Reference Reference Control Circuit Gain Adjustment Scaling Network Analog Output Offset Adjustment + Supply – Supply International Airport Industrial Park • Mailing Address: PO Box 11400 • Tucson, AZ 85734 • Street Address: 6730 S. Tucson Blvd. • Tucson, AZ 85706 Tel: (520) 746-1111 • Twx: 910-952-1111 • Cable: BBRCORP • Telex: 066-6491 • FAX: (520) 889-1510 • Immediate Product Info: (800) 548-6132 ©1986 Burr-Brown Corporation PDS-643F Printed in U.S.A. July, 1993 1 page DISCUSSION OF SPECIFICATIONS DIGITAL INPUT CODES The DAC80 accepts complementary binary digital input codes. The CBI model may be connected by the user for any one of three complementary codes: CSB, COB, or CTC (see Table I). DIGITAL INPUT ANALOG OUTPUT CSB COB CTC(1) Complementary Complementary Complementary Straight Offset Two’s MSB LSB Binary Binary Complement ↓↓ 000000000000 011111111111 100000000000 111111111111 +Full Scale +1/2 Full Scale 1/2 Full Scale –1LSB Zero +Full Scale Zero –1LSB –Full Scale –1LSB –Full Scale –Full Scale Zero NOTE: (1) Invert the MSB of the COB code with an external inverter to obtain CTC code. TABLE I. Digital Input Codes. SETTLING TIME Settling time for each DAC80 model is the total time (including slew time) required for the output to settle within an error band around its final value after a change in input (see Figure 1). 1 V Models 0.3 I Models 0.1 10kΩ Feedback 5kΩ Feedback 0.03 0.01 RL= 10Ω to 100Ω 0.003 RL= 1000Ω to 1875Ω 0.001 0.1 1 10 Settling Time (µs) 100 FIGURE 1. Full Scale Range Settling Time vs Accuracy. ACCURACY Linearity of a D/A converter is the true measure of its performance. The linearity error of the DAC80 is specified over its entire temperature range. This means that the analog output will not vary by more than ±1/2LSB, maximum, from an ideal straight line drawn between the end points (inputs all “1”s and all “0”s) over the specified temperature range of 0°C to +70°C. Differential linearity error of a D/A converter is the devia- tion from an ideal 1LSB voltage change from one adjacent output state to the next. A differential linearity error speci- fication of ±1/2LSB means that the output voltage step sizes can range from 1/2LSB to 3/2LSB when the input changes from one adjacent input state to the next. Monotonicity over a 0°C to +70°C range is guaranteed in the DAC80 to insure that the analog output will increase or remain the same for increasing input digital codes. DRIFT Gain Drift is a measure of the change in the full scale range output over temperature expressed in parts per million per °C (ppm/°C). Gain drift is established by: 1) testing the end point differences for each DAC80 model at 0°C, +25°C, and +70°C; 2) calculating the gain error with respect to the 25°C value, and; 3) dividing by the temperature change. This figure is expressed in ppm/°C and is given in the electrical specifications both with and without internal reference. Offset Drift is a measure of the actual change in output with all “1”s on the input over the specified temperature range. The offset is measured at 0°C, +25°C, and 70°C. The maximum change in Offset is referenced to the Offset at 25°C and is divided by the temperature range. This drift is expressed in parts per million of full scale range per °C (ppm of FSR/°C). Voltage Output Models Three settling times are specified to ±0.01% of full scale range (FSR); two for maximum full scale range changes of 20V, 10V and one for a 1LSB change. The 1LSB change is measured at the major carry (0111...11 to 1000...00), the point at which the worst case settling time occurs. Current Output Models Two settling times are specified to ±0.01% of FSR. Each is given for current models connected with two different resis- tive loads: 10Ω to 100Ω and 1000Ω to 1875Ω. Internal resistors are provided for connecting nominal load resis- tances of approximately 1000Ω to 1800Ω for output voltage range of ±1V and 0 to –2V (see Figures 11 and 12). COMPLIANCE Compliance voltage is the maximum voltage swing allowed on the current output node in order to maintain specified accuracy. The maximum compliance voltage of all current output models is ±2.5V. Maximum safe voltage range of ±1V and 0 to –2V (see Figures 11 and 12). POWER SUPPLY SENSITIVITY Power supply sensitivity is a measure of the effect of a power supply change on the D/A converter output. It is defined as a percent of FSR per percent of change in either the positive or negative supplies about the nominal power supply voltages (see Figure 2). REFERENCE SUPPLY All DAC80 models are supplied with an internal 6.3V reference voltage supply. This voltage (pin 24) has a toler- ance of ±1% and must be connected to the Reference Input ® 5 DAC80/80P 5 Page

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