PDF LTC2393-16 Data sheet ( Hoja de datos )

Número de pieza	LTC2393-16
Descripción	1Msps SAR ADC
Fabricantes	Linear Technology
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No Preview Available ! FEATURES n 1Msps Throughput Rate n ±2LSB INL (Max) n Guaranteed 16-Bit No Missing Codes n 94dB SNR (Typ) at fIN = 20kHz n H Grade n Single 5V Supply n 1.8V to 5V I/O Voltages n 125mW Power Dissipation n ±4.096V Differential Input Range n Internal Reference (20ppm/°C Max) n No Pipeline Delay, No Cycle Latency n Parallel and Serial Interface n Internal Conversion Clock n 48-pin 7mm × 7mm LQFP and QFN Packages APPLICATIONS n Medical Imaging n High Speed Data Acquisition n Digital Signal Processing n Industrial Process Control n Instrumentation n ATE Electrical Specifications Subject to Change LTC2393-16 16-Bit, 1Msps SAR ADC With 94dB SNR DESCRIPTION The LTC®2393-16 is a low noise, high speed 16-bit suc- cessive approximation register (SAR) ADC. Operating from a single 5V supply, the LTC2393-16 supports a large ±4.096V fully differential input range, making it ideal for high performance applications which require maximum dynamic range. The LTC2393-16 achieves ±2LSB INL max, no missing codes at 16-bits and 94dB SNR (typ). The LTC2393-16 includes a precision internal reference with a guaranteed 0.5% initial accuracy and a ±20ppm/°C (max) temperature coefﬁcient. Fast 1Msps throughput with no cycle latency in both parallel and serial interface modes makes the LTC2393-16 ideally suited for a wide variety of high speed applications. An internal oscillator sets the conversion time, easing external timing considerations. The LTC2393-16 dissipates only 125mW at 1Msps, while both nap and sleep power-down modes are provided to further reduce power during inactive periods. L, LT, LTC and LTM are registered trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners. TYPICAL APPLICATION ANALOG INPUT 0V TO 4.096V 249Ω LT6350 2200pF 249Ω SINGLE-ENDED- TO-DIFFERENTIAL DRIVER 5V 5V 1.8V TO 5V 10μF 0.1μF 10μF 0.1μF 4.7μF AVP IN+ DVP OVP PARALLEL OR SERIAL 16 BIT INTERFACE LTC2393-16 SER/PAR BYTESWAP IN– OB/2C CS RD VCM REFIN REFOUT CNVST PD RESET GND OGND BUSY 239316 TA01 10μF 1μF SAMPLE CLOCK www.DataSheet.in 16k Point FFT fS = 1Msps, fIN = 20kHz 0 SNR = 94.1dB –20 THD –101.2dB SINAD = 93.3dB –40 SFDR = 103dB –60 –80 –100 –120 –140 –160 –180 0 100 200 300 FREQUENCY (kHz) 400 500 239316 G08 239316p 1 1 page LTC2393-16 TIMING CHARACTERISTICS The l denotes the speciﬁcations which apply over the full operating temperature range, otherwise speciﬁcations are at TA = 25°C. (Note 4) SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS fSMPL tCONV tACQ t4 t5 t6 Sampling Frequency Conversion Time Acquisition Time CNVST Low Time CNVST High Time CNVST↓ to BUSY Delay CL = 15pF l l l l 20 l 250 l 1.0 Msps 600 ns 385 ns ns ns 15 ns t7 RESET Pulse Width t8 SCLK Period t9 SCLK High Time t10 SCLK Low Time tr, tf SCLK Rise and Fall Times t11 SDIN Setup Time t12 SDIN Hold Time t13 SDOUT Delay After SCLK↑ t14 SDOUT Delay After CS↓ t15 CS↓ to SCLK Setup Time (Note 9) (Note 10) CL = 15pF l5 l 12.5 l4 l4 l2 l1 l2 l l 20 ns ns ns ns 1 μs ns ns 8 ns 8 ns ns t16 Data Valid to BUSY↓ t17 Data Access Time after RD↓ or BYTESWAP↑ l1 l 10 ns ns t18 Bus Relinquish Time l 10 ns Note 1: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime. Note 2: All voltage values are with respect to ground. Note 3: When these pin voltages are taken below ground or above AVP, DVP or OVP, they will be clamped by internal diodes. This product can handle input currents up to 100mA below ground or above AVP, DVP or OVP without latchup. Note 4: AVP = DVP = OVP = 5V, fSMPL = 1MHz, external reference equal to 4.096V unless otherwise noted. Note 5: Recommended operating conditions. Note 6: Integral nonlinearity is deﬁned as the deviation of a code from a straight line passing through the actual endpoints of the transfer curve. The deviation is measured from the center of the quantization band. Note 7: Bipolar zero error is the offset voltage measured from –0.5LSB when the output code ﬂickers between 0000 0000 0000 0000 and 1111 1111 1111 1111. Bipolar full-scale error is the worst-case of –FS or +FS untrimmed deviation from ideal ﬁrst and last code transitions and includes the effect of offset error. Note 8: All speciﬁcations in dB are referred to a full-scale ±4.096V input with a 4.096V reference voltage. Note 9: t13 of 8ns maximum allows a shift clock frequency up to 2 • (t13 + tSETUP) for falling edge capture with 50% duty cycle and up to 80MHz for rising capture. tSETUP is the set-up time of the receiving logic. Note 10: Guaranteed by design. 4V tDELAY 4V 0.5V 0.5V tDELAY 4V 0.5V 50% tWIDTH 50% 239316F01 Figure 1. Voltage Levels for Timing Speciﬁcations www.DataSheet.in 239316p 5 5 Page LTC2393-16 APPLICATIONS INFORMATION OVERVIEW The LTC2393-16 is a low noise, high speed 16-bit suc- cessive approximation register (SAR) ADC. Operating from a single 5V supply, the LTC2393-16 supports a large ±4.096V fully differential input range, making it ideal for high performance applications which require a wide dynamic range. The LTC2393-16 achieves ±2LSB INL max, no missing codes at 16 bits and 94dB SNR (typ). The LTC2393-16 includes a precision internal reference with a guaranteed 0.5% initial accuracy and a ±20ppm/°C (max) temperature coefﬁcient. Fast 1Msps throughput with no cycle latency in both parallel and serial interface modes makes the LTC2393-16 ideally suited for a wide variety of high speed applications. An internal oscillator sets the conversion time, easing external timing considerations. The LTC2393-16 dissipates only 125mW at 1Msps, while both nap and sleep power-down modes are provided to further reduce power during inactive periods. CONVERTER OPERATION The LTC2393-16 operates in two phases. During the ac- quisition phase, the charge redistribution capacitor D/A converter (CDAC) is connected to the IN+ and IN– pins to sample the differential analog input voltage. A falling edge on the CNVST pin initiates a conversion. During the conversion phase, the 16-bit CDAC is sequenced through a successive approximation algorithm, effectively comparing the sampled input with binary-weighted fractions of the reference voltage (e.g., VREF/2, VREF/4 … VREF/65536) using the differential comparator. At the end of conversion, the CDAC output approximates the sampled analog input. The ADC control logic then prepares the 16-bit digital output code for parallel or serial transfer. TRANSFER FUNCTION The LTC2393-16 digitizes the full-scale voltage of 2 • VREF into 216 levels, resulting in an LSB size of 125μV when VREF = 4.096V. The ideal transfer function for two’s complement is shown in Figure 2. The OB/2C pin selects either offset binary or two’s complement format. 011...111 011...110 000...001 000...000 111...111 111...110 BIPOLAR ZERO 100...001 100...000 FSR = +FS – –FS 1LSB = FSR/65536 –FSR/2 –1 0V 1 LSB LSB INPUT VOLTAGE (V) FSR/2 – 1LSB 239316 F02 Figure 2. LTC2393-16 Two’s Complement Transfer Function ANALOG INPUT The analog inputs of the LTC2393-16 are fully differential in order to maximize the signal swing that can be digitized. The analog inputs can be modeled by the equivalent circuit shown in Figure 3. The diodes at the input provide ESD pro- tection. The analog inputs should not exceed the supply or go below ground. In the acquisition phase, each input sees approximately 40pF (CIN) from the sampling CDAC in series with 50Ω (RIN) from the on-resistance of the sampling switch. Any unwanted signal that is common to both inputs will be reduced by the common mode rejection of the ADC. The inputs draw only one small current spike while charging the CIN capacitors during acquisition. During conversion, the analog inputs draw only a small leakage current. AVP IN+ RIN CIN AVP IN– RIN CIN BIAS VOLTAGE 239316 F03 Figure 3. The Equivalent Circuit for the Differential Analog Input of the LTC2393-16 www.DataSheet.in 239316p 11 11 Page

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