LTC1864L/LTC1865L UUUPI FU CTIO SLTC1864LVREF (Pin 1): Reference Input. The reference input defines down. A logic low on this input enables the SDO pin, the span of the A/D converter and must be kept free of allowing the data to be shifted out. noise with respect to GND. SDO (Pin 6): Digital Data Output. The A/D conversion IN+, IN– (Pins 2, 3): Analog Inputs. These inputs must be result is shifted out of this pin. free of noise with respect to GND. SCK (Pin 7): Shift Clock Input. This clock synchronizes the GND (Pin 4): Analog Ground. GND should be tied directly serial data transfer. to an analog ground plane. VCC (Pin 8): Positive Supply. This supply must be kept CONV (Pin 5): Convert Input. A logic high on this input free of noise and ripple by bypassing directly to the starts the A/D conversion process. If the CONV input is left analog ground plane. high after the A/D conversion is finished, the part powers LTC1865L (MSOP Package)CONV (Pin 1): Convert Input. A logic high on this input SDO (Pin 7): Digital Data Output. The A/D conversion starts the A/D conversion process. If the CONV input is left result is shifted out of this output. high after the A/D conversion is finished, the part powers SCK (Pin 8): Shift Clock Input. This clock synchronizes the down. A logic low on this input enables the SDO pin, serial data transfer. allowing the data to be shifted out. VCH0, CH1 (Pins 2, 3): Analog Inputs. These inputs must CC (Pin 9): Positive Supply. This supply must be kept free of noise and ripple by bypassing directly to the be free of noise with respect to AGND. analog ground plane. AGND (Pin 4): Analog Ground. AGND should be tied V directly to an analog ground plane. REF (Pin 10): Reference Input. The reference input de- fines the span of the A/D converter and must be kept free DGND (Pin 5): Digital Ground. DGND should be tied of noise with respect to AGND. directly to an analog ground plane. SDI (Pin 6): Digital Data Input. The A/D configuration word is shifted into this input. LTC1865L (SO-8 Package)CONV (Pin 1): Convert Input. A logic high on this input SDI (Pin 5): Digital Data Input. The A/D configuration starts the A/D conversion process. If the CONV input is left word is shifted into this input. high after the A/D conversion is finished, the part powers SDO (Pin 6): Digital Data Output. The A/D conversion down. A logic low on this input enables the SDO pin, result is shifted out of this output. allowing the data to be shifted out. SCK (Pin 7): Shift Clock Input. This clock synchronizes the CH0, CH1 (Pins 2, 3): Analog Inputs. These inputs must serial data transfer. be free of noise with respect to GND. VGND (Pin 4): Analog Ground. GND should be tied directly CC (Pin 8): Positive Supply. This supply must be kept free of noise and ripple by bypassing directly to the to an analog ground plane. analog ground plane. VREF is tied internally to this pin. sn18645L 18645Lfs 7