SAB-C167CR-16RM HA+ Infineon Technologies, SAB-C167CR-16RM HA+ Datasheet - Page 66

SAB-C167CR-16RM HA+

Manufacturer Part Number

SAB-C167CR-16RM HA+

Description

IC MCU 16BIT MQFP-144

Manufacturer

Infineon Technologies

Series

C16xxr

Datasheet

1.SAB-C167CR-LM_HA.pdf (89 pages)

Specifications of SAB-C167CR-16RM HA+

Core Processor

C166

Core Size

16-Bit

Speed

25MHz

Connectivity

CAN, EBI/EMI, SPI, UART/USART

Peripherals

POR, PWM, WDT

Number Of I /o

111

Program Memory Size

128KB (128K x 8)

Program Memory Type

Mask ROM

Ram Size

4K x 8

Voltage - Supply (vcc/vdd)

4.5 V ~ 5.5 V

Data Converters

A/D 16x10b

Oscillator Type

External

Operating Temperature

0°C ~ 70°C

Package / Case

144- BSQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Eeprom Size

Other names

B167CR16RMHAZNT
SABC167CR16RMHAT
SP000083849

Current page: 66 of 89
Download datasheet (2Mb)

4.3

Table 13

Parameter

Analog reference supply

Analog reference ground

Analog input voltage range

Basic clock frequency

Conversion time

Calibration time after reset

Total unadjusted error

Internal resistance of

reference voltage source

Internal resistance of

analog source

ADC input capacitance

1) TUE is tested at

3) The limit values for

4) This parameter includes the sample time

5) During the reset calibration conversions can be executed (with the current accuracy). The time required for

6) During the conversion the ADC’s capacitance must be repeatedly charged or discharged. The internal

7) Not subject to production test - verified by design/characterization.

Data Sheet

the defined voltage range.

If the analog reference supply voltage exceeds the power supply voltage by up to 0.2 V

(i.e.

The specified TUE is guaranteed only if the absolute sum of input overload currents on Port 5 pins (see

specification) does not exceed 10 mA.

During the reset calibration sequence the maximum TUE may be ±4 LSB.

cases will be X000

result register with the conversion result.

Values for the basic clock

This parameter depends on the ADC control logic. It is not a real maximum value, but rather a fixum.

these conversions is added to the total reset calibration time.

resistance of the reference voltage source must allow the capacitance to reach its respective voltage level

within each conversion step. The maximum internal resistance results from the programmed conversion

timing.

AIN

may exceed

AREF

Analog/Digital Converter Parameters

A/D Converter Characteristics (Operating Conditions apply)

+ 0.2 V) the maximum TUE is increased to ±3 LSB. This range is not 100% tested.

AREF

AGND

or X3FF

= 5.0 V,

must not be exceeded when selecting the CPU frequency and the ADCTC setting.

AREF

, respectively.

depend on programming and can be taken from

AGND

up to the absolute maximum ratings. However, the conversion result in these

Symbol

TUE CC –

CAL

AREF

AGND

AIN

AREF

ASRC

AIN

= 0 V,

SR 4.0

CC –

SR –

CC –

, the time for determining the digital result and the time to load the

= 4.9 V. It is guaranteed by design for all other voltages within

Min.

0.5

AGND

- 0.1

Limit Values

Max.

6.25

+ 2

3328

±2

- 0.25

AREF

/ 450

/ 60

+ 0.2

+ 0.1

CPU

Table

Electrical Parameters

Unit

MHz

–

LSB

kΩ

14.

Test

Condition

–

CPU

in [ns]

V3.3, 2005-02

in [ns]

= 1/

C167CR

C167SR

7)8)

CPU

6)7)

SAB-C167CR-16RM HA+ Infineon Technologies, SAB-C167CR-16RM HA+ Datasheet - Page 66

SAB-C167CR-16RM HA+

Specifications of SAB-C167CR-16RM HA+

Related parts for SAB-C167CR-16RM HA+