Name: HI5767/6CA
Brand: Rochester Electronics, LLC
SKU: HI5767/6CA
Availability: InStock

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HI5767/6CA

Manufacturer part number:HI5767/6CA

Manufacturer:Rochester Electronics, LLC

Description:FLASH METHOD, 10-BIT ADC

Case Package:SOT-23

Datasheet:HI5767/6CA Datasheet PDF

RoHs Status:non-compliant

Parameter Name	Value
Type	Parameter
Surface Mount	YES
Pbfree Code	no
Part Status	Obsolete
Moisture Sensitivity Level (MSL)	3 (168 Hours)
Number of Terminations	28
Terminal Finish	NOT SPECIFIED
Technology	CMOS
Terminal Position	DUAL
Terminal Form	GULL WING
Peak Reflow Temperature (Cel)	240
Number of Functions	1
Supply Voltage	5V
Terminal Pitch	0.635mm
[email protected] Reflow Temperature-Max (s)	NOT SPECIFIED
Pin Count	28
JESD-30 Code	R-PDSO-G28
Operating Temperature (Max)	70°C
Temperature Grade	COMMERCIAL
Number of Bits	10
Converter Type	ADC, FLASH METHOD
Sampling Rate	60 MHz
Number of Analog In Channels	1
Output Bit Code	OFFSET BINARY, 2'S COMPLEMENT BINARY
Linearity Error-Max (EL)	0.1709%
Sample and Hold / Track and Hold	SAMPLE
Analog Input Voltage-Max	0.5V
Output Format	PARALLEL, WORD
Analog Input Voltage-Min	-0.5V
Height Seated (Max)	1.75mm
Length	9.905mm
Width	3.895mm
RoHS Status	Non-RoHS Compliant

About HI5767/6CA

The HI5767/6CA from Rochester Electronics, LLC is a high-performance microcontroller designed for a wide range of embedded applications. This component features FLASH METHOD, 10-BIT ADC.

Key Features

Advanced AVR architecture for efficient processing
Wide operating temperature range: -40°C to 85°C
Low power consumption for energy-efficient applications
Comprehensive peripheral set including SPI, UART, and USART interfaces

Applications

This microcontroller is ideal for various applications including:

Industrial control systems
Consumer electronics
Automotive systems
IoT devices
Medical equipment

Technical Support

Hotenda provides comprehensive technical support for the HI5767/6CA, including datasheets, application notes, and design resources. Our team of engineers is available to assist with your design challenges.