LM12H458MEL/883 NSC [National Semiconductor], LM12H458MEL/883 Datasheet
LM12H458MEL/883
Related parts for LM12H458MEL/883
LM12H458MEL/883 Summary of contents
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LM12454/LM12458/LM12H458 12-Bit + Sign Data Acquisition System with Self-Calibration General Description The LM12454, LM12458, and LM12H458 are highly inte- grated Data Acquisition Systems. Operating on just 5V, they combine a fully-differential self-calibrating (correcting linear- ity and zero errors) 13-bit (12-bit ...
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... Clock Freq (min) Linearity Error (max) 8 MHz 5 MHz Connection Diagrams * Pin names apply to the LM12454 and LM12H454. Order Number LM12454CIV, LM12458CIV or LM12H458CIV See NS Package Number V44A Order Number LM12H458MEL/883 or 5962-9319502MYA See NS Package Number EL44A www.national.com Guaranteed Order Part Number ± 1.0 LSB LM12H458CIV ...
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Functional Diagrams LM12454 LM12(H)458 3 DS011264-1 DS011264-21 www.national.com ...
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Absolute Maximum Ratings If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. Supply Voltage (V + and Voltage at Input and Output Pins except IN0–IN3 (LM12454) and ...
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Converter Characteristics The following specifications apply to the LM12454, LM12458, and LM12H458 for V = 8.0 MHz (LM12H458 12-bit + sign conversion mode, f CLK V and fully-differential input with fixed 2.5V common-mode voltage, and ...
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Converter AC Characteristics The following specifications apply to the LM12454, LM12458, and LM12H458 for V = 8.0 MHz (LM12H458 12-bit + sign conversion mode, f CLK V and fully-differential input with fixed 2.5V common-mode voltage, ...
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DC Characteristics (Notes 19) The following specifications apply to the LM12454, LM12458, and LM12H458 for V = 8.0 MHz (LM12H454/ 5.0 MHz (LM12458), and minimum acquisition time unless otherwise specified. Bold- f CLK CLK ...
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Internal Reference Characteristics The following specifications apply to the LM12454, LM12458, and LM12H458 for Boldface limits apply for MIN Symbol Parameter t Internal Reference Start-Up Time SU Digital Characteristics (Notes 6, 7, ...
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Digital Timing Characteristics The following specifications apply to the LM12454, LM12458, and LM12H458 for V 100 pF on data I/O, INT and DMARQ lines unless otherwise specified. Boldface limits apply for 25˚C. other limits T A ...
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Digital Timing Characteristics Note 17: The LM12(H)454/8’s self-calibration technique ensures linearity and offset errors as specified, but noise inherent in the self-calibration process will result ± repeatability uncertainty of 0.10 LSB. Note 18: The Throughput Rate is for ...
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Electrical Characteristics = 4.096V V − V REF+ REF− − IN+ IN− GND IN+ A GND IN− A FIGURE 2. Specific Case of Output Digital Code vs the Operating ...
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Electrical Characteristics = V V − V REF REF+ REF− FIGURE 3. The General Case of the V www.national.com (Continued) Operating Range REF 12 DS011264-24 ...
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Electrical Characteristics = V V − V REF REF+ REF− FIGURE 4. The Specific Case of the V (Continued) Operating Range for V REF FIGURE 5. Transfer Characteristic 13 DS011264- DS011264-4 ...
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Electrical Characteristics FIGURE 6. Simplified Error Curve vs Output Code without Auto-Calibration or Auto-Zero Cycles FIGURE 7. Simplified Error Curve vs Output Code after Auto-Calibration Cycle www.national.com (Continued) FIGURE 8. Offset or Zero Error Voltage 14 DS011264-5 DS011264-6 DS011264-7 ...
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Typical Performance Characteristics auto-calibration unless otherwise specified. The performance for 8-bit + sign and “watchdog” modes is equal to or better than shown. Linearity Error Change vs Clock Frequency DS011264-37 Linearity Error Change vs Supply Voltage DS011264-40 Full-Scale Error Change ...
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Typical Performance Characteristics auto-calibration unless otherwise specified. The performance for 8-bit + sign and “watchdog” modes is equal to or better than shown. (Continued) Zero Error Change vs Temperature DS011264-46 Analog Supply Current vs Temperature DS011264-49 V Load Regulation REFOUT ...
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Typical Dynamic Performance Characteristics mode after auto-calibration unless otherwise specified. Bipolar Signal-to-Noise Ratio vs Input Frequency DS011264-54 Bipolar Spectral Response with 1.028 kHz Sine Wave Input DS011264-57 Bipolar Spectral Response with 40 kHz Sine Wave Input DS011264-60 The following curves ...
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Typical Dynamic Performance Characteristics mode after auto-calibration unless otherwise specified. (Continued) Unipolar Signal-to-Noise + Distortion Ratio vs Input Frequency DS011264-63 Unipolar Spectral Response with 10 kHz Sine Wave Input DS011264-66 Test Circuits and Waveforms FIGURE 9. TRI-STATE Test Circuits and ...
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Timing Diagrams + = +5V Address valid to ALE low set-up time Address valid to ALE low hold time. 5: ALE pulse width 6: RD ...
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Timing Diagrams + = +5V outputs. (Continued) FIGURE 11. Non-Multiplexed Data Bus (ALE = pulse width 9: RD high to next low 11: WR pulse width 13: ...
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Pin Description Analog and digital supply voltage pins. The A D LM12(H)454/8’s supply voltage operating range is +3.0V to +5.5V. Accuracy is guaranteed only and V + are connected to the same power ...
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Application Information 1.0 Functional Description The LM12454 and LM12(H)458 are multi-functional Data Ac- quisition Systems that include a 12-bit-plus-sign self-calibrating analog-to-digital converter (ADC) with a two’s-complement output format, an 8-channel (LM12(H)458 4-channel (LM12454) analog multiplexer, an internal 2.5V ...
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Internal User-Programmable Registers (Continued) Any Instruction RAM READ or WRITE can affect the se- quencer’s operation: The Sequencer should be stopped by setting the RESET bit to a “1” resetting the START bit in the Configura- tion ...
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Internal User-Programmable Registers www.national.com (Continued) 24 ...
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Internal User-Programmable Registers Purpose Instruction RAM (RAM Pointer = 00 ...
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Internal User-Programmable Registers (Continued) Bits 12–15 are used to store the user-programmable acqui- sition time. The Sequencer keeps the internal S/H in the ac- quisition mode for a fixed number of clock cycles (nine clock cycles, for 12-bit + ...
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Internal User-Programmable Registers (Continued) mand (“1”) disconnects the external clock from the internal circuitry, decreases the LM12(H)454/8’s internal analog cir- cuitry power supply current, and preserves all internal RAM contents. After writing a “0” to the Standby bit, the ...
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Internal User-Programmable Registers (Continued) The completion of a full auto-zero self-calibration generates Interrupt 4. Interrupt 5 is generated when the Sequencer encounters an instruction that has its Pause bit (Bit 1 in Instruction RAM “00”) set to “1”. The ...
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Internal User-Programmable Registers (Continued) Bits 8–15 show the Limit # 2 status. Each bit will be set high (“1”) when the corresponding instruction’s input voltage ex- ceeds the threshold stored in the instruction’s Limit # 2 regis- ter. When, ...
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Sequencer The Sequencer uses a 3-bit counter (Instruction Pointer, or IP, in Figure retrieve the programmable conversion in- structions stored in the Instruction RAM. The 3-bit counter is reset to 000 during chip reset or if ...
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Sequencer (Continued) FIGURE 15. Sequencer Logic Flow Chart (IP = Instruction Pointer) DS011264-19 31 www.national.com ...
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Analog Considerations 5.1 REFERENCE VOLTAGE The difference in the voltages applied to the V V defines the analog input voltage span (the difference REF− between the voltages applied between two multiplexer inputs or the voltage applied to one of ...
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Application Circuits (Continued) velop both software and hardware. The board hardwires the BW (Bus Width) pin to a logic high, selecting an 8-bit wide databus. Therefore designed for an 8-bit expansion slot on the computer’s motherboard. The ...
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Application Circuits Note: The layout utilizes a split ground plane. The analog ground plane is placed under all analog signals and U5 pins 1, 34–44. The remaining signals and pins are placed over the digital ground. The single point ...
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Application Circuits (Continued) Parts List: Y1 HC49U, 8 MHz crystal D1 1N4002 L1 33 µH P1 DB37F; parallel connector 5%, 1 ⁄ 5%, ⁄ RN1 10 ...
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Application Circuits FIGURE 18. Logic Equations Used to Program the GAL16V8 www.national.com (Continued) 36 DS011264-32 ...
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Application Circuits (Continued) FIGURE 19. GAL Functional Block Diagram FIGURE 20. Silk-Screen Layout Showing Parts Placement on the LM12(H)454/8 Evaluation/Interface Board DS011264-27 37 DS011264-31 www.national.com ...
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Application Circuits FIGURE 21. LM12(H)454/8 Evaluation/Interface Board Component-Side Layout Positive www.national.com (Continued) 38 DS011264-28 ...
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Application Circuits (Continued) FIGURE 22. LM12(H)454/8 Evaluation/Interface Board Ground-Plane Layout Negative 39 DS011264-29 www.national.com ...
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Application Circuits FIGURE 23. LM12(H)454/8 Evaluation/Interface Circuit-Side Layout Positive www.national.com (Continued) 40 DS011264-30 ...
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... Physical Dimensions inches (millimeters) unless otherwise noted Order Number LM12458MEL/883 or 5962-9319501MYA, LM12H458MEL/883 or 5962-9319502MYA NS Package Number EL44A 41 www.national.com ...
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Physical Dimensions inches (millimeters) unless otherwise noted (Continued) Order Number LM12454CIV, LM12458CIV or LM12H458CIV Order Number LM12H458CIVF or LM12458CIVF www.national.com NS Package Number V44A NS Package Number VGZ44A 42 ...
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LIFE SUPPORT POLICY NATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION. As used herein: 1. Life support ...