LTC2357-16 aDc TiMing characTerisTics Note 1: Stresses beyond those listed under Absolute Maximum Ratings Note 11: Guaranteed by design, not subject to test. may cause permanent damage to the device. Exposure to any Absolute Note 12: For bipolar SoftSpan ranges 7, 6, 3, and 2, zero-scale error is Maximum Rating condition for extended periods may affect device the offset voltage measured from –0.5LSB when the output code flickers reliability and lifetime. between 0000 0000 0000 0000 and 1111 1111 1111 1111. Full-scale Note 2: All voltage values are with respect to GND. error for these SoftSpan ranges is the worst-case deviation of the first and Note 3: V last code transitions from ideal and includes the effect of offset error. For DDLBYP is the output of an internal voltage regulator, and should only be connected to a 2.2μF ceramic capacitor to bypass the pin to GND, unipolar SoftSpan ranges 5, 4, and 1, zero-scale error is the offset voltage as described in the Pin Functions section. Do not connect this pin to any measured from 0.5LSB when the output code flickers between 0000 0000 external circuitry. 0000 0000 and 0000 0000 0000 0001. Full-scale error for these SoftSpan Note 4: When these pin voltages are taken below V ranges is the worst-case deviation of the last code transition from ideal EE or above VCC, they will be clamped by internal diodes. This product can handle input currents and includes the effect of offset error. of up to 100mA below V Note 13: All specifications in dB are referred to a full-scale input in the EE or above VCC without latchup. Note 5: When these pin voltages are taken below GND or above V relevant SoftSpan input range, except for crosstalk, which is referred to DD or OV the crosstalk injection signal amplitude. DD, they will be clamped by internal diodes. This product can handle currents of up to 100mA below GND or above V Note 14: Temperature coefficient is calculated by dividing the maximum DD or OVDD without latchup. change in output voltage by the specified temperature range. Note 6: –16.5V ≤ V Note 15: When REFBUF is overdriven, the internal reference buffer must EE ≤ 0V, 7.5V ≤ VCC ≤ 38V, 10V ≤ (VCC – VEE) ≤ 38V, V be disabled by setting REFIN = 0V. DD = 5V, unless otherwise specified. Note 7: Recommended operating conditions. Note 16: IREFBUF varies proportionally with sample rate and the number of Note 8: Exceeding these limits on any channel may corrupt conversion active channels. results on other channels. Driving an analog input above V Note 17: Portions of the analog input circuitry are powered down during CC on any channel up to 10mA will not affect conversion results on other channels. conversion, reducing IVCC and IVEE. Refer to Applications Information Driving an analog input below V section for more details. EE may corrupt conversion results on other channels. Refer to Applications Information section for further details. Note 18: Parameter tested and guaranteed at OVDD = 1.71V, OVDD = 2.5V, Refer to Absolute Maximum Ratings section for pin voltage limits related and OVDD = 5.25V. to device reliability. Note 19: A tSCKI period of 10ns minimum allows a shift clock frequency of Note 9: VCC = 15V, VEE = –15V, VDD = 5V, OVDD = 2.5V, fSMPL = 350ksps, up to 100MHz for rising edge capture. internal reference and buffer, true bipolar input signal drive in bipolar Note 20: VICM = 1.2V, VID = 350mV for LVDS differential input pairs. SoftSpan ranges, unipolar signal drive in unipolar SoftSpan ranges, unless otherwise specified. Note 10: 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. CMOS Timings 0.8 • OVDD tWIDTH 0.2 • OVDD t tDELAY 50% 50% DELAY 235716 F01 0.8 • OVDD 0.8 • OVDD 0.2 • OVDD 0.2 • OVDD LVDS Timings (Differential) +200mV tWIDTH –200mV t tDELAY 0V 0V DELAY 235716 F01b +200mV +200mV –200mV –200mV Figure 1. Voltage Levels for Timing Specifications 235716f 8 For more information www.linear.com/LTC2357-16 Document Outline Features Applications Typical Application Description Absolute Maximum Ratings Order Information Pin Configuration Electrical Characteristics Converter Characteristics Dynamic Accuracy Internal Reference Characteristics Reference Buffer Characteristics Digital Inputs and Digital Outputs Power Requirements ADC Timing Characteristics Typical Performance Characteristics Pin Functions Configuration Tables Functional Block Diagram Timing Diagram Applications Information Board Layout Package Description Typical Application Related Parts