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| a FEATURES Internal Hold Capacitors Low Droop Rate TTL/CMOS Compatible Logic Inputs Single or Dual Supply Operation Break-Before-Make Channel Addressing Compatible With CD4051 Pinout Low Cost APPLICATIONS Multiple Path Timing Deskew for ATE Memory Programmers Mass Flow/Process Control Systems Multichannel Data Acquisition Systems Robotics and Control Systems Medical and Analytical Instrumentation Event Analysis Stage Lighting Control INPUT 3 Octal Sample-and-Hold with Multiplexed Input SMP08* FUNCTIONAL BLOCK DIAGRAM (LSB) A 11 B 10 (MSB) C 9 INH 6 8 DGND 1 OF 8 DECODER 16 VDD SW 13 CH0OUT SW 14 CH1OUT SW 15 CH2OUT SW 12 CH3OUT SW 1 CH4OUT SW 5 CH5OUT SW 2 CH6OUT GENERAL DESCRIPTION The SMP08 is a monolithic octal sample-and-hold; it has eight internal buffer amplifiers, input multiplexer, and internal hold capacitors. It is manufactured in an advanced oxide isolated CMOS technology to obtain high accuracy, low droop rate, and fast acquisition time. The SMP08 has a typical linearity error of only 0.01% and can accurately acquire a 10-bit input signal to 1/2 LSB in less than 7 microseconds. The SMP08's output swing includes the negative supply in both single and dual supply operation. The SMP08 was specifically designed for systems that use a calibration cycle to adjust a multiple of system parameters. The low cost and high level of integration make the SMP08 ideal for calibration requirements that have previously required an ASIC, or high cost multiple D/A converters. *Protected by U.S. Patent No. 4,739,281. SW HOLD CAPS (INTERNAL) 4 CH7OUT 7 VSS SMP08 The SMP08 is also ideally suited for a wide variety of sampleand-hold applications including amplifier offset or VCA gain adjustments. One or more SMP08s can be used with single or multiple DACs to provide multiple set points within a system. The SMP08 offers significant cost and size reduction over discrete designs. It is available in a 16-pin plastic DIP, or surfacemount SOIC package. REV. D 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: 617/329-4700 World Wide Web Site: http://www.analog.com Fax: 617/326-8703 (c) Analog Devices, Inc., 1996 SMP08-SPECIFICATIONS(@ V ELECTRICAL CHARACTERISTICS Parameter Linearity Error Buffer Offset Voltage Hold Step Droop Rate Output Source Current Output Sink Current Output Voltage Range LOGIC CHARACTERISTICS Logic Input High Voltage Logic Input Low Voltage Logic Input Current DYNAMIC PERFORMANCE Acquisition Time3 Hold Mode Settling Time Channel Select Time Channel Deselect Time Inhibit Recovery Time Slew Rate Capacitive Load Stability Analog Crosstalk 2 DD = +5 V, VSS = -5 V, DGND = 0 V, RL = No Load, TA = -40 C to +85 C for SMP08F, unless otherwise noted) Symbol VOS VHS VCH/t ISOURCE ISINK Conditions -3 V VIN +3 V TA = +25C, VIN = 0 V -40C TA +85C, VIN = 0 V VIN = 0 V, TA = +25C to +85C VIN = 0 V, TA = -40C TA = +25C, VIN = 0 V VIN = 0 V1 VIN = 0 V1 RL = 20 k Min Typ 0.01 2.5 3.5 2.5 2 Max 10 20 4 5 20 +3.0 1.2 0.5 -3.0 2.4 Units % mV mV mV mV mV/s mA mA V V V A s s ns ns ns V/s pF dB dB mA mA VINH VINL IIN tAQ tH tCH tDCS tIR SR VIN = 2.4 V TA = +25C, -3 V to +3 V to 0.1% To 1 mV of Final Value 0.5 3.6 1 90 45 90 3 500 -72 60 75 4 5 0.8 1 7 <30% Overshoot -3 V to +3 V Step PSRR IDD VS = 5 V to 6 V TA = +25C -40C TA +85C SUPPLY CHARACTERISTICS Power Supply Rejection Ratio Supply Current 7.5 9.5 ELECTRICAL CHARACTERISTICS Parameter Linearity Error Buffer Offset Voltage Hold Step Droop Rate Output Source Current Output Sink Current Output Voltage Range LOGIC CHARACTERISTICS Logic Input High Voltage Logic Input Low Voltage Logic Input Current DYNAMIC PERFORMANCE2 Acquisition Time3 Hold Mode Settling Time Channel Select Time Channel Deselect Time Inhibit Recovery Time Slew Rate Capacitive Load Stability Analog Crosstalk SUPPLY CHARACTERISTICS Power Supply Rejection Ratio Supply Current Symbol VOS VHS VCH/t ISOURCE ISINK (@ VDD = +12 V, VSS = 0 V, DGND = 0 V, RL = No Load, TA = -40 C to +85 C for SMP08F, unless otherwise noted) Conditions 60 mV VIN 10 V TA = +25C, VIN = 6 V -40C TA +85C, VIN = 6 V VIN = 6 V, TA = +25C to +85C VIN = 6 V, TA = -40C TA = +25C, VIN = 6 V VIN = 6 V1 VIN = 6 V1 RL = 20 k RL = 10 k Min Typ 0.01 2.5 3.5 2.5 2 1.2 0.5 0.06 0.06 2.4 VIN = 2.4 V TA = +25C, 0 V to 10 V to 0.1% -40C TA +85C To 1 mV of Final Value 0.5 3.5 3.75 1 90 45 90 4 500 -72 75 6.0 8.0 0.8 1 4.25 6.00 Max 10 20 4 5 20 10.0 9.5 Units % mV mV mV mV mV/s mA mA V V V V A s s s ns ns ns V/s pF dB dB mA mA VINH VINL IIN tAQ tH tCH tDCS tIR SR RL = 20 k4 <30% Overshoot 0 V to 10 V Step 10.8 V VDD 13.2 V TA = +25C -40C TA +85C 3 PSRR IDD 60 8.0 10.0 NOTES 1 Outputs are capable of sinking and sourcing over 20 mA but offset is guaranteed at specified load levels. 2 All input control signals are specified with t r = tf = 5 ns (10% to 90% of +5 V) and timed from a voltage level of 1.6 V. 3 This parameter is guaranteed without test. 4 Slew rate is measured in the sample mode with 0 V to 10 V step from 20% to 80%. Specifications subject to change without notice. -2- REV. D SMP08 ABSOLUTE MAXIMUM RATINGS ORDERING GUIDE VDD to DGND . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3 V, 17 V VDD to VSS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3 V, 17 V VLOGIC to DGND . . . . . . . . . . . . . . . . . . . . . . . . -0.3 V, VDD VIN to DGND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . VSS, VDD VOUT to DGND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . VSS, VDD Analog Output Current . . . . . . . . . . . . . . . . . . . . . . . 20 mA (Not Short-Circuit Protected) Operating Temperature Range FP, FS . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40C to +85C Junction Temperature . . . . . . . . . . . . . . . . . . . . . . . . +150C Storage Temperature . . . . . . . . . . . . . . . . . . -65C to +150C Lead Temperature (Soldering, 60 sec) . . . . . . . . . . . . +300C Package Type 16-Pin Plastic DIP (P) 16-Pin SOIC (S) JA* JC Model SMP08FP SMP08FS Temperature Range -40C to +85C -40C to +85C Package Description Plastic DIP SO-16 Package Option N-16 R-16A PIN CONNECTIONS CH4OUT 1 CH6OUT 2 INPUT 3 CH7OUT 4 16 VDD 15 CH2OUT 14 CH1OUT Units C/W C/W 76 92 33 27 13 CH0OUT TOP VIEW CH5OUT 5 (Not to Scale) 12 CH3OUT INH 6 VSS 7 DGND 8 11 A CONTROL 10 B CONTROL 9 C CONTROL SMP08 *JA is specified for worst case mounting conditions, i.e., JA is specified for device in socket for plastic DIP package; JA is specified for device soldered to printed circuit board for SO package. CAUTION ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000 V readily accumulate on the human body and test equipment and can discharge without detection. Although the SMP08 features proprietary ESD protection circuitry, permanent damage may occur on devices subjected to high energy electrostatic discharges. Therefore, proper ESD precautions are recommended to avoid performance degradation or loss of functionality. WARNING! ESD SENSITIVE DEVICE REV. D -3- SMP08-Typical Performance Characteristics 1000 VDD = +12V VSS = 0V V I N = +5V RL = 10k 3 1800 1600 VDD = +12V VSS = 0V TA = +125C NO LOAD 1400 2 100 DROOP RATE - mV/s DROOP RATE - mV/s 1 DROOP RATE - mV/s 10 0 1200 -1 VDD = +12V VSS = 0V -2 TA = +25C NO LOAD -3 23 4 5 67 8 01 INPUT VOLTAGE - Volts 1000 1 800 0.1 -55 -35 -15 600 9 10 0 1 2 3 45 6 78 INPUT VOLTAGE - Volts 9 10 5 25 45 65 85 105 125 TEMPERATURE - C Figure 1. Droop Rate vs. Temperature Figure 2. Droop Rate vs. Input Voltage Figure 3. Droop Rate vs. Input Voltage 2 1 HOLD STEP - mV VDD = +12V VSS = 0V TA = +25C NO LOAD 0 2 VDD = +12V VSS = 0V V I N = +5V NO LOAD 7 1 VSS = 0V T A = +25C NO LOAD 6 HOLD STEP - mV 0 SLEW RATE - V/s -SR 5 +SR 4 -1 -1 -2 -2 -3 -3 3 10 -4 0 1 2 3 45 6 78 INPUT VOLTAGE - Volts 9 10 -4 -55 -35 -15 5 25 45 TEMPERATURE - C 65 85 11 12 13 14 15 VDD - Volts 16 17 18 Figure 4. Hold Step vs. Input Voltage Figure 5. Hold Step vs. Temperature Figure 6. Slew Rate vs. VDD 4 2 OFFSET VOLTAGE - mV 0 -2 -4 -6 -8 -10 0 1 2 RL = 20k RL = 10k RL = VDD = +12V VSS = 0V OFFSET VOLTAGE - mV 20 15 10 5 0 -5 -10 -15 -20 VDD = +12V VSS = 0V NO LOAD OFFSET VOLTAGE - mV TA = +85C 4 2 0 -2 -4 -6 -8 -10 RL = 10k RL = VDD = +12V VSS = 0V TA = +25C NO LOAD TA = -40C NO LOAD RL = 20k RL = RL = 10k RL = 20k 3 45 6 78 INPUT VOLTAGE - Volts 9 10 0 1 2 3 45 6 78 INPUT VOLTAGE - Volts 9 10 0 1 2 3 45 6 78 INPUT VOLTAGE - Volts 9 10 Figure 7. Offset Voltage vs. Input Voltage Figure 8. Offset Voltage vs. Input Voltage Figure 9. Offset Voltage vs. Input Voltage -4- REV. D Typical Performance Characteristics-SMP08 0 -1 VDD = +12V VSS = 0V 14 12 SUPPLY CURRENT - mA VSS = 0V NO LOAD REJECTION RATIO - dB 90 80 70 60 50 40 30 20 10 -PSRR +PSRR VDD = +12V VSS = 0V V I N = +6V TA = +25C NO LOAD OFFSET VOLTAGE - mV -2 -3 -4 -5 -6 -7 -8 -55 -35 -15 V I N = +5V RL = 10k 10 +85C 8 +25C 6 4 -40C 5 25 45 65 85 105 125 2 4 6 8 12 VDD - Volts 10 14 16 18 0 10 100 TEMPERATURE - C 1k 10k 100k FREQUENCY - Hz 1M Figure 10. Offset Voltage vs. Temperature Figure 11. Supply Current vs. VDD Figure 12. Sample Mode Power Supply Rejection 2 1 0 GAIN - dB -1 VDD = +12V VSS = 0V TA = +25C NO LOAD 90 45 PHASE SHIFT - Degrees 0 -45 35 30 OUTPUT IMPEDANCE - VDD = +12V VSS = 0V TA = +25C NO LOAD 25 20 15 10 5 0 10 PHASE -2 -3 GAIN -4 -5 100 -180 -225 10M -90 -135 1k 10k 100k FREQUENCY - Hz 1M 100 1k 10k 100k FREQUENCY - Hz 1M Figure 13. Gain, Phase Shift vs. Frequency Figure 14. Output Impedance vs. Frequency 15 PEAK-TO-PEAK OUTPUT - Volts VDD = +6V VSS = -6V TA = +25C NO LOAD REJECTION RATIO - dB 60 50 +PSRR 40 VDD = +12V 30 VSS = 0V TA = +25C 20 NO LOAD 10 HOLD CAPACITORS REFERENCED TO VSS 0 -PSRR 12 9 6 3 0 10k 1M 100k FREQUENCY - Hz 10M -10 10 100 1k 10k 100k FREQUENCY - Hz 1M Figure 15. Maximum Output Voltage vs. Frequency Figure 16. Hold Mode Power Supply Rejection REV. D -5- SMP08 VCC R3 6.5k R4 1k +15V D1 C1 10F + R1 10 1 2 3 4 5 R2 10k R2 10k R2 10k R2 10k 6 7 8 16 15 14 C2 1F SMP08 13 12 11 10 9 R2 10k R2 10k R2 10k R2 10k Figure 17. Burn-In Circuit APPLICATIONS INFORMATION OUTPUT BUFFERS (Pins 1, 2, 4, 5, 12, 13, 14, 15) The SMP08, a multiplexed octal S/H, minimizes board space in systems requiring cycled calibration or an array of control voltages. When used in conjunction with a low cost 16-bit D/A, the SMP08 can easily be integrated into microprocessor based systems. Since the SMP08 features break-before-make switching and an internal decoder, no external logic is required. The SMP08 has an internally regulated TTL supply so that TTL/ CMOS compatibility is maintained over the full supply range. See Figure 18 for channel decode address information. POWER SUPPLIES The buffer offset specification is 10 mV; this is less than 1/2 LSB of an 8-bit DAC with 10 V full scale. The hold step (magnitude of step caused in the output voltage when switching from sample-to-hold mode, also referred to as the pedestal error or sample-to-hold offset), is about 2.5 mV with little variation over the full output voltage range, TA = +25C to +85C. The droop rate of a held channel is 2 mV/s typical and 20 mV/s maximum. The buffers are designed to drive loads connected to ground. The outputs can source more than 20 mA, over the full voltage range, but have limited current sinking capability near VSS. In split supply operation, symmetrical output swings can be obtained by restricting the output range to 2 V from either supply. On-chip SMP08 buffers eliminate potential stability problems associated with external buffers; outputs are stable with capacitive loads up to 500 pF. However, since the SMP08's buffer outputs are not short-circuit protected, care should be taken to avoid shorting any output to the supplies or ground. SIGNAL INPUT (Pin 3) The SMP08 is capable of operating with either single or dual supplies, over a voltage range of 7 volts to 15 volts. Based on the supply voltages chosen, VDD and VSS establish the input and output voltage range, which is: (VSS +0.06 V) VOUT/IN (VDD -2 V) Note that several specifications, including acquisition time, offset and output voltage compliance, will degrade for supply voltages of less than 7 V. If split supplies are used, the negative supply should be bypassed with a 0.1 F capacitor in parallel with a 10 F to ground. The internal hold capacitors are connected to this supply pin and any noise will appear at the outputs. In single supply applications, it is extremely important that the VSS (negative supply) pin is connected to a clean ground. The hold capacitors are internally tied to the VSS (negative) rail. Any ground noise or disturbance will directly couple to the output of the sample-and-hold, degrading the signal-to-noise performance. The analog and digital ground traces on the circuit board should be physically separated to reduce digital switching noise from entering the analog circuitry. POWER SUPPLY SEQUENCING The signal input should be driven from a low impedance voltage source such as the output of an op amp. The op amp should have a high slew rate and fast settling time if the SMP08's acquisition time characteristics are to be maintained. As with all CMOS devices, all input voltages should be kept within range of the supply rails (VSS < VIN < VDD) to avoid the possibility of latchup. If single supply operation is desired, op amps such as the OP183 or AD820 that have input and output voltage compliances including ground, can be used to drive the inputs. Split supplies, such as 7.5 V, can be used with the SMP08. APPLICATION TIPS VDD should be applied to the SMP08 before the logic input signals. The SMP08 has been designed to be immune to latchup, but standard precautions should still be taken. All unused digital inputs should be connected to logic LOW and unused analog inputs connected to analog ground. For connector-driven analog inputs that may become temporarily disconnected, a resistor to VDD, VSS or analog ground should be used with a value ranging from 200 k to 1 M. -6- REV. D SMP08 +12V SMP08 13 CH0 +12V VSS 14 CH1 VOA 3 3 REF02 +5V 4 DIGITAL INPUTS VREFA 17 VDD DAC8228 WR 16 WR ADDRESS BUS ADDRESS DECODE CS 15 VSS 15 CH2 VZ 1 GND 5 VSS A B C 12 CH3 11 10 9 VSS 5 VSS 1 CH4 PIN 9 C 0 0 0 0 1 1 1 1 X CHANNEL DECODING PIN 10 B 0 0 1 1 0 0 1 1 X PIN 11 A 0 1 0 1 0 1 0 1 X PIN 6 INH 0 0 0 0 0 0 0 0 1 CH 0 1 2 3 4 5 6 7 NONE PIN 13 14 15 12 1 5 2 4 - DGND 8 VSS 2 INH 6 CH5 CH6 VSS 4 CH7 VSS 16 +12V 0.1F 7 Figure 18. 8-Channel Multiplexed D/A Converter Do not apply signals to the SMP08 with power off unless the input current is limited to less than 10 mA. TYPICAL APPLICATIONS AN 8-CHANNEL MULTIPLEXED D/A CONVERTER Figure 18 illustrates a typical demultiplexing function of the SMP08. It is used to sample-and-hold eight different output voltages corresponding to eight different digital codes from a D/A converter. The SMP08's droop rate of 20 mV/s requires a refresh once every 500 ms, before the voltage drifts beyond 1/2 LSB accuracy (1 LSB of an 8-bit DAC is equivalent to 19.5 mV out of a full-scale voltage of 5 V). For a 10-bit DAC the refresh rate must be less than 120 ms, and, for a 12-bit system, 31 ms. This implementation is very cost effective compared to using multiple DACs as the number of output channels increases. REV. D -7- SMP08 OUTLINE DIMENSIONS Dimensions shown in inches and (mm). 16-Lead Plastic DIP (N-16) 0.840 (21.33) 0.745 (18.93) 16 1 9 8 0.280 (7.11) 0.240 (6.10) 0.060 (1.52) 0.015 (0.38) 0.130 (3.30) MIN 0.325 (8.25) 0.300 (7.62) 0.195 (4.95) 0.115 (2.93) PIN 1 0.210 (5.33) MAX 0.160 (4.06) 0.115 (2.93) 0.022 (0.558) 0.014 (0.356) 0.100 (2.54) BSC 0.015 (0.381) 0.008 (0.204) 0.070 (1.77) SEATING 0.045 (1.15) PLANE 16-Lead SOIC (Narrow Body) (SO-16) 0.3937 (10.00) 0.3859 (9.80) 16 1 9 8 0.1574 (4.00) 0.1497 (5.80) 0.2550 (6.20) 0.2284 (5.80) PIN 1 0.0098 (0.25) 0.0040 (0.10) 0.0688 (1.75) 0.0532 (1.35) 0.0196 (0.50) 0.0099 (0.25) x 45 SEATING PLANE 0.0500 (1.27) BSC 0.0192 (0.49) 0.0138 (0.35) 8 0.0099 (0.25) 0 0.0500 (1.27) 0.0160 (0.41) 0.0075 (0.19) -8- REV. D PRINTED IN U.S.A. C2192-2-10/96 |
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