Datasheet LTC1860, LTC1861 (Analog Devices) - 9
| Fabricante | Analog Devices |
| Descripción | µPower, 12-Bit, 250ksps 1- and 2-Channel ADCs in MSOP |
| Páginas / Página | 18 / 9 — pin FuncTions. LTC1860. SDI (Pin 6):. REF (Pin 1):. SDO (Pin 7):. IN+, … |
| Formato / tamaño de archivo | PDF / 377 Kb |
| Idioma del documento | Inglés |
pin FuncTions. LTC1860. SDI (Pin 6):. REF (Pin 1):. SDO (Pin 7):. IN+, IN– (Pins 2, 3):. SCK (Pin 8):. GND (Pin 4):. VCC (Pin 9):
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Versión de texto del documento
LTC1860/LTC1861
pin FuncTions LTC1860 SDI (Pin 6):
Digital Data Input. The A/D configuration
V
word is shifted into this input.
REF (Pin 1):
Reference Input. The reference input defines the span of the A/D converter and must be kept free of
SDO (Pin 7):
Digital Data Output. The A/D conversion noise with respect to GND. result is shifted out of this output.
IN+, IN– (Pins 2, 3):
Analog Inputs. These inputs must be
SCK (Pin 8):
Shift Clock Input. This clock synchronizes free of noise with respect to GND. the serial data transfer.
GND (Pin 4):
Analog Ground. GND should be tied directly
VCC (Pin 9):
Positive Supply. This supply must be kept to an analog ground plane. free of noise and ripple by bypassing directly to the
CONV (Pin 5):
Convert Input. A logic high on this input analog ground plane. starts the A/D conversion process. If the CONV input is
VREF (Pin 10):
Reference Input. The reference input defines left high after the A/D conversion is finished, the part the span of the A/D converter and must be kept free of powers down. A logic low on this input enables the SDO noise with respect to AGND. pin, allowing the data to be shifted out.
LTC1861 (SO-8 Package) SDO (Pin 6):
Digital Data Output. The A/D conversion result is shifted out of this pin.
CONV (Pin 1):
Convert Input. A logic high on this input starts the A/D conversion process. If the CONV input is
SCK (Pin 7):
Shift Clock Input. This clock synchronizes left high after the A/D conversion is finished, the part the serial data transfer. powers down. A logic low on this input enables the SDO
VCC (Pin 8):
Positive Supply. This supply must be kept pin, allowing the data to be shifted out. free of noise and ripple by bypassing directly to the
CH0, CH1 (Pins 2, 3):
Analog Inputs. These inputs must analog ground plane. be free of noise with respect to GND.
LTC1861 (MSOP Package) GND (Pin 4):
Analog Ground. GND should be tied directly
CONV (Pin 1):
Convert Input. A logic high on this input to an analog ground plane. starts the A/D conversion process. If the CONV input is
SDI (Pin 5):
Digital Data Input. The A/D configuration left high after the A/D conversion is finished, the part word is shifted into this input. powers down. A logic low on this input enables the SDO
SDO (Pin 6):
Digital Data Output. The A/D conversion pin, allowing the data to be shifted out. result is shifted out of this output.
CH0, CH1 (Pins 2, 3):
Analog Inputs. These inputs must
SCK (Pin 7):
Shift Clock Input. This clock synchronizes be free of noise with respect to AGND. the serial data transfer.
AGND (Pin 4):
Analog Ground. AGND should be tied directly
V
to an analog ground plane.
CC (Pin 8):
Positive Supply. This supply must be kept free of noise and ripple by bypassing directly to the analog
DGND (Pin 5):
Digital Ground. DGND should be tied directly ground plane. VREF is tied internally to this pin. to an analog ground plane. 18601fb For more information www.linear.com/LTC1860 9 Document Outline Features Description Applications Typical Application Absolute Maximum Ratings Pin Configuration Typical Performance Characteristics Pin Functions Block Diagram Applications Information Package Description Typical Application Related Parts
pin FuncTions LTC1860 SDI (Pin 6):
Digital Data Input. The A/D configuration
V
word is shifted into this input.
REF (Pin 1):
Reference Input. The reference input defines the span of the A/D converter and must be kept free of
SDO (Pin 7):
Digital Data Output. The A/D conversion noise with respect to GND. result is shifted out of this output.
IN+, IN– (Pins 2, 3):
Analog Inputs. These inputs must be
SCK (Pin 8):
Shift Clock Input. This clock synchronizes free of noise with respect to GND. the serial data transfer.
GND (Pin 4):
Analog Ground. GND should be tied directly
VCC (Pin 9):
Positive Supply. This supply must be kept to an analog ground plane. free of noise and ripple by bypassing directly to the
CONV (Pin 5):
Convert Input. A logic high on this input analog ground plane. starts the A/D conversion process. If the CONV input is
VREF (Pin 10):
Reference Input. The reference input defines left high after the A/D conversion is finished, the part the span of the A/D converter and must be kept free of powers down. A logic low on this input enables the SDO noise with respect to AGND. pin, allowing the data to be shifted out.
LTC1861 (SO-8 Package) SDO (Pin 6):
Digital Data Output. The A/D conversion result is shifted out of this pin.
CONV (Pin 1):
Convert Input. A logic high on this input starts the A/D conversion process. If the CONV input is
SCK (Pin 7):
Shift Clock Input. This clock synchronizes left high after the A/D conversion is finished, the part the serial data transfer. powers down. A logic low on this input enables the SDO
VCC (Pin 8):
Positive Supply. This supply must be kept pin, allowing the data to be shifted out. free of noise and ripple by bypassing directly to the
CH0, CH1 (Pins 2, 3):
Analog Inputs. These inputs must analog ground plane. be free of noise with respect to GND.
LTC1861 (MSOP Package) GND (Pin 4):
Analog Ground. GND should be tied directly
CONV (Pin 1):
Convert Input. A logic high on this input to an analog ground plane. starts the A/D conversion process. If the CONV input is
SDI (Pin 5):
Digital Data Input. The A/D configuration left high after the A/D conversion is finished, the part word is shifted into this input. powers down. A logic low on this input enables the SDO
SDO (Pin 6):
Digital Data Output. The A/D conversion pin, allowing the data to be shifted out. result is shifted out of this output.
CH0, CH1 (Pins 2, 3):
Analog Inputs. These inputs must
SCK (Pin 7):
Shift Clock Input. This clock synchronizes be free of noise with respect to AGND. the serial data transfer.
AGND (Pin 4):
Analog Ground. AGND should be tied directly
V
to an analog ground plane.
CC (Pin 8):
Positive Supply. This supply must be kept free of noise and ripple by bypassing directly to the analog
DGND (Pin 5):
Digital Ground. DGND should be tied directly ground plane. VREF is tied internally to this pin. to an analog ground plane. 18601fb For more information www.linear.com/LTC1860 9 Document Outline Features Description Applications Typical Application Absolute Maximum Ratings Pin Configuration Typical Performance Characteristics Pin Functions Block Diagram Applications Information Package Description Typical Application Related Parts