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PRELIMINARY TECHNICAL DATA a FEATURES 12-Bit Linearity and Monotonic -40oC to +125oC Single +5V to +12V or dual 5V supply Unipolar or Bipolar Operation Double Buffered Registers Enable Simultaneous MultiChannels Update 4 Separate Rail-to Rail Reference Inputs Parallel Interface Data Readback Capability 5s Settling Time APPLICATIONS Process Control Equipment Closed Loop Servo Control Data Acquisition Systems Digitally Controlled Calibration Motor Control Optical Network Control Loops GENERAL DESCRIPTION The AD5582/AD5583 family of quad, 12-/10-bit, voltage-output digital-to-analog converter is designed to operate from a single +5 to +15 volt or a dual 5V supply. Built using a CBCMOS process, this monolithic DAC offers the user low cost, and ease-of-use in single or dual-supply systems. The applied external reference VREF determines the full-scale output voltage. Valid VREF values include VSS QUAD, Parallel-Input, Voltage Output, 12-/10-Bit Digital-to-Analog Converter AD5582/AD5583 FUNCTIONAL DIAGRAM VRLA VRHA VRLB V RHB V DD 1 2 3 4 5 A1 A0 DB11 37 36 24 ADDR DECODE 6 V OA DB10 25 DB9 26 DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 CS W/R VLOGIC MSB RS LDAC 27 28 29 30 31 32 33 34 35 I N T E R F A C E 7 V OB Do IN Di REG DAC REG 38 RA RB RC 20k 39 20k 40 AD5582 OE 8 AGND 23 22 19 17 18 21 16 20 15 14 13 12 11 9 VOC VOD CONTROL LOGIC 10 DVDD DGND VRHDV RLD V RHCVRLC VSS +2.5V AD R 421 V R E FH A B C D AD 5582 2.5V DAC A 2.5V RA RB RC V R E FL A B C D DAC B 2.5V DAC C 2.5V -2.5V DAC D D IG IT A L C IR C U IT R Y O M IT T E D F O R C L A R IT Y Figure 1 Using Onboard Offset resistors to generate a negative voltage REF REV PrC, 23 APR '01 Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 U.S.A. Tel: 781/329-4700 Fax:781/326-8703 World Wide Web Site: http://www.analog.com (c)Analog Devices, Inc., 2000 PRELIMINARY TECHNICAL DATA AD5582/AD5583 ELECTRICAL CHARACTERISTICS at VDD =+5V, VSS = -5V, VL = +5V10%, VREFH = +2.5V, VREFL = -2.5V, -40C < TA < +125C, unless otherwise noted. PARAMETER STATIC PERFORMANCE Resolution1 Resolution1 Relative Accuracy2 Differential Nonlinearity2 Zero-Scale Error Full-Scale Voltage Error Full-Scale Tempco3 REFERENCE INPUT VREFH Input Range4 VREFL Input Range4 Input Resistance8 Input Capacitance3 REF Input Current REF Multiplying Bandwidth ANALOG OUTPUT Output Current Capacitive Load3 LOGIC INPUTS Logic Input Low Voltage Logic Input High Voltage Input Leakage Current Input Capacitance3 Output Voltage High Output Voltage Low AC CHARACTERISTICS Output Slew Rate Settling Time7 Shutdown Recovery DAC Glitch Digital Feed Through Analog Crosstalk Output Noise SUPPLY CHARACTERISTICS Positive Supply Current Negative Supply Current Power Dissipation Power Supply Sensitivity NOTES: 1. 2. 3. 4. SYMBOL N N INL DNL VZSE VFSE TCVFS VREFH VREFL RREF CREF IREF BWREF IOUT CL VIL VIH IIL CIL VOH VOL SR tS tSDR Q VOUT/tCS VOUT/VREF eN IDD ISS PDISS PSS CONDITION AD5582 AD5583 Monotonic Data = 000H Data = FFFH MIN TYP 12 10 MAX UNITS Bits Bits LSB LSB LSB LSB ppm/oC V V K5 pF A Hz mA pF V V A pF V V V/s s s nVs nVs dB nVHz -1 -1 +1 2 2 10 Data = 555H VSS VSS 10 80 VDD VDD 500 Data = 800H, VOUT = 4LSB No Oscillation VL = 5V 10% VL = 5V 10% 2 500 0.8 2.4 IOH = -0.8mA IOL = 1.6mA Data = 000H to FFFH to 000H To 0.1% of Full Scale Code 7FFH to 800H to 7FFH Data=800H, CS toggles at f=16MHz VREF = 1.5VDC +1VP-P, Data = 000H, f=100KHz 2.4 0.4 2 5 100 5 -80 40 3 3 30 30 VIL = 0V, No Load VIL = 0V, No Load VIL = 0V, No Load VDD = 5% mA mA mW ppm/V 5. 6. DAC Output Equation: VOUT = VREFL + [(VREFH-VREFL)*Code/2^N], where Code = data loaded in corresponding DAC register A, B, C, D and N equals the DAC resolution AD5582 = 12, AD5583 = 10 bits. One LSB = VREF/4096V for the 12-bit AD5582. The first two codes (000H, 001H) are excluded from the linearity error measurement in single supply operation. These parameters are guaranteed by design and not subject to production testing. When VREF is connected to either the VDD or the VSS power supply the corresponding VOUT voltage will program between ground and the supply voltage minus the offset voltage of the output buffer, which is the same as the VZSE error specification. See additional discussion in the operation section of the data sheet. Typical specifications represent average readings measured at 25C. The settling time specification does not apply for negative going transitions within the last 3 LSBs of ground in single supply operation. This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Analog Devices assumes no obligation regarding future manufacture unless otherwise agreed to in writing. REV PrC, 23 APR '01 2 PRELIMINARY TECHNICAL DATA AD5582/AD5583 ELECTRICAL CHARACTERISTICS at VDD =+15V, VSS = 0V, VL =+5V10%, VREFH = +10V, VREFL = 0V, -40C < TA < +125C, unless otherwise noted. PARAMETER STATIC PERFORMANCE Resolution1 Resolution1 Relative Accuracy2 Differential Nonlinearity2 Zero-Scale Error Full-Scale Voltage Error Full-Scale Tempco3 REFERENCE INPUT VREFH Input Range4 VREFL Input Range4 Input Resistance8 Input Capacitance3 REF Input Current REF Multiplying Bandwidth ANALOG OUTPUT Output Current Capacitive Load3 LOGIC INPUTS/OUTPUTS Logic Input Low Voltage Logic Input High Voltage Input Leakage Current Input Capacitance3 Output Voltage High Output Voltage Low AC CHARACTERISTICS Output Slew Rate Settling Time7 Shutdown Recovery DAC Glitch Digital Feed Through Analog Crosstalk Output Noise SUPPLY CHARACTERISTICS Positive Supply Current Power Dissipation Power Supply Sensitivity NOTES: 1. 2. 3. 4. SYMBOL N N INL DNL VZSE VFSE TCVFS VREFH VREFL RREF CREF IREF BWREF IOUT CL VIL VIH IIL CIL VOH VOL SR tS tSDR Q VOUT/tCS VOUT/VREF eN IDD PDISS PSS CONDITION AD5582 AD5583 Monotonic Data = 000H Data = FFFH MIN TYP 12 10 MAX UNITS Bits Bits LSB LSB LSB LSB ppm/oC V V K5 pF A Hz mA pF V V A pF V V V/s s s nVs nVs dB nVHz -1 -1 +1 2 2 10 Data = 555H VSS 0 10 80 VDD VDD 500 Data = 800H, VOUT = 4LSB No Oscillation +5 500 0.8 2.4 IOH = -0.8mA IOL = 1.6mA Data = 000H to FFFH to 000H To 0.1% of Full Scale Code 7FFH to 800H to 7FFH Data=800H, CS toggles at f=16MHz VREFH = 2.5VDC +1VP-P, Data = 000H, f=100KHz 2.4 0.4 2 5 100 5 -80 40 3 45 30 VIL = 0V, No Load VIL = 0V, No Load VDD = 5% mA mW ppm/V 5. 6. DAC Output Equation: VOUT = VREFL + [(VREFH-VREFL)*Code/2^N], where Code = data loaded in corresponding DAC register A, B, C, D and N equals the DAC resolution AD5582 = 12, AD5583 = 10 bits. One LSB = VREF/4096V for the 12-bit AD5582. The first two codes (000H, 001H) are excluded from the linearity error measurement in single supply operation. These parameters are guaranteed by design and not subject to production testing. When VREF is connected to either the VDD or the VSS power supply the corresponding VOUT voltage will program between ground and the supply voltage minus the offset voltage of the output buffer, which is the same as the VZSE error specification. See additional discussion in the operation section of the data sheet. Typical specifications represent average readings measured at 25C. The settling time specification does not apply for negative going transitions within the last 3 LSBs of ground in single supply operation. This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Analog Devices assumes no obligation regarding future manufacture unless otherwise agreed to in writing. REV PrC, 23 APR '01 3 PRELIMINARY TECHNICAL DATA AD5582/AD5583 ELECTRICAL CHARACTERISTICS at VDD =+15V, VSS = 0V, VL =+5V10%, VREFH = +10V, VREFL = 0V, -40C < TA < +125C, unless otherwise noted. PARAMETER INTERFACE TIMING Clock Frequency Chip Select Write Pulsewidth Write Setup Write Hold Address Setup Address Hold Load Setup Load Hold Write Data Setup Write Data Hold Load Data Pulsewidth Reset Pulsewidth Chip Select Read Pulsewidth Read Data Hold Read Data Setup Data to Hi Z Chip Select to Data Chip Select Repetitive Pulsewidth Load Setup in Double Buffer Mode 1,2 SYMBOL fCLK tWCS tWS tWH tAS tAH tLS tLH tWDS tWDH tLDW tRESET tRCS tRDH tRDS tDZ tCSD tCSP tLDS CONDITION MIN TYP MAX 25 UNITS MHz ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns tWCS = 50 ns tWCS = 50 ns tWCS = 50 ns tWCS = 50 ns tRCS = 130 ns tRCS = 130 ns CL = 10pF CL = 100pF 30 0 0 0 0 70 30 0 0 50 50 130 0 0 100 100 10 20 NOTES: 1. 2. All input control signals are specified with tR = tF = 2ns (10% to 90% of +3V) and timed from a voltage level of 1.5V. Typicals represent average readings measured at 25C. ABSOLUTE MAXIMUM RATINGS VDD to VSS.......................................................-0.3V to +16.5V VDD to GND.......................................................... -0.3V to 5.5V VSS to GND .........................................................+0.3V to -5.5V VDD to VREF+ ............................................. -0.3V to (VDD-VSS) VREF- to VSS ............................................... -0.3V to (VDD-VSS) VREFH to VREFL ........................................ -0.3V to (VDD-VSS) Logic Inputs to GND ............................VSS - 0.3V, VDD + 0.3V VOUT to GND ....................................... VSS - 0.3V, VDD + 0.3V IOUT Short Circuit to GND ........................................................... Thermal Resistance JA TSSOP-48 Lead (RU-48) ........................................ xxxC/W Maximum Junction Temperature (TJ MAX) ........................ 150C Package Power Dissipation = (TJ MAX - TA)/JA Operating Temperature Range ..........................-40C to +125C Storage Temperature Range ..............................-65C to +150C Lead Temperature: RU-48 (Vapor Phase, 60 secs)...................................... xxxC RU-44 (Infrared, 15 secs)............................................. xxxC Stress above those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. ORDERING GUIDE: MODEL AD5582YRU-REEL7 AD5583YRU-REEL7 Resolution (Bits) 12 10 TEMP RANGE -40/+125C -40/+125C Package Description TSSOP-48 TSSOP-48 Package Option RU-48 RU-48 Container Qty The AD5582 contains xxx transistors. The die size measures 108 mil X 144 mil. This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Analog Devices assumes no obligation regarding future manufacture unless otherwise agreed to in writing. REV PrC, 23 APR '01 4 PRELIMINARY TECHNICAL DATA AD5582/AD5583 PIN CONFIGURATION 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 Pin# Name . VRLA VRHA VRLB VRHB VDD VOA VOB RA RB RC AGND VOC VOD VSS VRLC VRHC VRLD VRHD DGND DVDD LDAC RS MSB VL W/R CS DB0 DB1 DB2 DB3 DB4 DB5 DB6 DB7 DB8 DB9 DB10 DB11 A0 A1 Description Voltage Reference Low Input Terminal DAC A Voltage Reference High Input Terminal DAC A Voltage Reference Low Input Terminal DAC B Voltage Reference High Input Terminal DAC B Positive Power Supply DAC A Output DAC B output End Tap Offset Resistor Center Tap Offset Resistor End Tap Offset Resistor Analog Ground Voltage Out DAC C DAC D Output Negative Power Supply Voltage Reference Low Input Terminal DAC C Voltage Reference High Input Terminal DAC C Voltage Reference Low Input Terminal DAC D Voltage Reference High Input Terminal DAC D Digital Ground DAC Register Load, active low level sensitive Reset strobe Reset Mode: MSB=0 Code = 000H, MSB=1 Code 800H Logic Supply Voltage Write Read Mode select Chip Select, active low Data Bit 0 Data Bit 1 Data Bit 2 Data Bit 3 Data Bit 4 Data Bit 5 Data Bit 6 Data Bit 7 Data Bit 8 Data Bit 9 Data Bit 10 Data Bit 11 Address Input 0 Address Input 1 NOTE: Pin Out not finalized! Please contact Analog Devices Inc. for final version This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Analog Devices assumes no obligation regarding future manufacture unless otherwise agreed to in writing. REV PrC, 23 APR '01 5 PRELIMINARY TECHNICAL DATA AD5582/AD5583 tRCS = 130ns CS tRDS= 0 tRDH= TBD R/W tAS = TBD A0/A1 tAH = 0 tCSD = 100ns max tDZ = 100ns max HI-Z DATA OUT HI-Z DATA VALID DATA OUTPUT (READ TIMING) tWCS = TBD CS tWS = TBD tWH = 0 R/W tAS = 0 A0/A1 tLDW = 50ns tAH = 0 tLS = 70ns LDAC tWDS = 0ns DATA IN tLH = 30ns tWDH = 0 tRESET = 50ns RESET DATA WRITE (INPUT AND OUTPUT REGISTERS) TIMING This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Analog Devices assumes no obligation regarding future manufacture unless otherwise agreed to in writing. REV PrC, 23 APR '01 6 PRELIMINARY TECHNICAL DATA AD5582/AD5583 tCSP = 10nS tWCS = 30nS CS tWS = 0 tWH = 0 R/W tAS = 0 ADDRESS ADDRESS ONE tLS = 70ns ADDRESS TWO ADDRESS THREE ADDRESS FOUR tLH = 30ns LDAC tWDH = 0 DATA3 VALID DATA4 VALID tWDS = 0ns DATA IN DATA1 VALID DATA2 VALID SINGLE BUFFER MODE (OUTPUT UPDATED INDIVIDUALLY) tCSP = 10nS tWCS = 30nS CS tWS = 0 tWH = 0 R/W tAS = 0 ADDRESS ADDRESS ONE ADDRESS TWO ADDRESS THREE ADDRESS FOUR tLDS = 20ns tLDH = 30ns LDAC tLDW = 50ns tWDS = 0ns DATA1 VALID DATA2 VALID DATA3 VALID DATA4 VALID tWDH = 0 DATA IN DOUBLE BUFFER MODE (OUTPUT UPDATED SIMULTANEOUSLY) This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Analog Devices assumes no obligation regarding future manufacture unless otherwise agreed to in writing. REV PrC, 23 APR '01 7 PRELIMINARY TECHNICAL DATA AD5582/AD5583 OUTLINE DIMENSIONS Dimensions shown in inches and (mm) This information applies to a product under development. Its characteristics and specifications are subject to change without notice. Analog Devices assumes no obligation regarding future manufacture unless otherwise agreed to in writing. REV PrC, 23 APR '01 8 |
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