MAX1075ETC-T Maxim Integrated, MAX1075ETC-T Datasheet
MAX1075ETC-T
Specifications of MAX1075ETC-T
Related parts for MAX1075ETC-T
MAX1075ETC-T Summary of contents
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... S/( 525kHz Input Frequency ♦ Internal True-Differential Track/Hold (T/H) ♦ External Reference ♦ No Pipeline Delays ♦ Small 12-Pin TQFN Package ), which L digital logic. The DD Applications PART MAX1072ETC+T MAX1075ETC+T + Denotes a lead(Pb)-free/RoHS-compliant package Tape and reel. +4.75V TO +5.25V 10μF 9 CNVST DIFFERENTIAL 8 DOUT INPUT VOLTAGE ...
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Single-Supply, Low-Power, True-Differential, 10-Bit ADCs ABSOLUTE MAXIMUM RATINGS V to GND ..............................................................-0. GND ...................-0.3V to the lower Digital Inputs to GND ....................-0.3V to the lower of (V Digital Output to GND ...
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Single-Supply, Low-Power, ELECTRICAL CHARACTERISTICS (continued +5V ±5 4.096V REF values are +25°C.) A PARAMETER SYMBOL ANALOG INPUTS (AIN+, AIN-) Differential Input Voltage Range Absolute ...
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Single-Supply, Low-Power, True-Differential, 10-Bit ADCs TIMING CHARACTERISTICS (V = +5V ±5 4.096V REF values are +25°C.) A PARAMETER SYMBOL SCLK Pulse-Width High SCLK Pulse-Width Low SCLK ...
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Single-Supply, Low-Power +5V 4.096V REF +25°C.) INTEGRAL NONLINEARITY vs. DIGITAL OUTPUT CODE (MAX1072) 0.2 0.1 0 -0.1 -0.2 0 200 400 600 800 1000 1200 DIGITAL OUTPUT ...
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Single-Supply, Low-Power, True-Differential, 10-Bit ADCs (V = +5V 4.096V REF +25°C.) FFT PLOT (MAX1075 2Msps SAMPLE f = 32MHz -20 SCLK f = 100kHz IN SINAD ...
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Single-Supply, Low-Power +5V 4.096V REF +25°C.) V PARTIAL/FULL POWER-DOWN L SUPPLY CURRENT vs. TEMPERATURE 200 150 28.8MHz SCLK 100 V = ...
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Single-Supply, Low-Power, True-Differential, 10-Bit ADCs PIN NAME 1 AIN- Negative Analog Input External Reference Voltage Input REF capacitor and a 4.7µF capacitor to RGND. 3 RGND Reference Ground. Connect RGND to GND. Positive Analog Supply Voltage (+4.75V ...
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Single-Supply, Low-Power REF AIN + 10-BIT T/H SAR ADC AIN - CONTROL LOGIC AND TIMING MAX1072 MAX1075 RGND Figure 3. Functional Diagram Serial Interface Initialization After Power-Up and Starting a Conversion Upon initial power-up, the MAX1072/MAX1075 require ...
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Single-Supply, Low-Power, True-Differential, 10-Bit ADCs CNVST t SETUP 1 2 SCLK HIGH IMPEDANCE DOUT Figure 5. Interface-Timing Sequence CNVST SCLK 1ST SCLK RISING EDGE DOUT 0 0 MODE Figure 6. SPI Interface—Partial Power-Down Mode CNVST FIRST 8-BIT TRANSFER SCLK ...
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Single-Supply, Low-Power, Applications Information External Reference An external reference is required for the MAX1072/ MAX1075. Use a 4.7µF and 0.01µF bypass capacitor on the REF pin for best performance. The reference input structure allows a voltage range of +1V ...
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Single-Supply, Low-Power, True-Differential, 10-Bit ADCs CNVST SCLK 1 DOUT Figure 10. Continuous Conversion with Burst/Continuous Clock A) SPI B) QSPI C) MICROWIRE Figure 11. Common Serial-Interface Connections to the MAX1072/MAX1075 12 ______________________________________________________________________________________ ...
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Single-Supply, Low-Power, CNVST 1 SCLK HIGH-Z DOUT D9 Figure 12. SPI/MICROWIRE Serial-Interface Timing—Single Conversion (CPOL = CPHA = 0), (CPOL = CPHA = 1) CNVST SCLK DOUT Figure 13. SPI/MICROWIRE Serial-Interface Timing—Continuous Conversion (CPOL = ...
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Single-Supply, Low-Power, True-Differential, 10-Bit ADCs V L MAX1072 SCLK MAX1075 CNVST DOUT Figure 15. Interfacing to the TMS320C54_ Internal Clocks For continuous conversion, set the serial port to trans- mit a clock, and pulse the frame sync signal for ...
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Single-Supply, Low-Power, CNVST SCLK DOUT Figure 17. DSP Interface—Continuous Conversion CNVST SCLK DOUT Figure 18. DSP Interface—Single-Conversion, Continuous/Burst Clock ters should be configured for late framing (LAFR = ...
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Single-Supply, Low-Power, True-Differential, 10-Bit ADCs V L MAX1072 SCLK MAX1075 CNVST DOUT Figure 19. Interfacing to the ADSP21_ _ _ Signal-to-Noise Ratio For a waveform perfectly reconstructed from digital sam- ples, signal-to-noise ratio (SNR) is the ratio of full-scale ...
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Single-Supply, Low-Power, Full-Linear Bandwidth Full-linear bandwidth is the frequency at which the sig- nal to noise plus distortion (SINAD) is equal to 56dB. Intermodulation Distortion Any device with nonlinearities creates distortion prod- ucts when two sine waves at two ...
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... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. 18 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 © 2009 Maxim Integrated Products ...