SAK-XC167CI-32F40FBB-A Infineon Technologies, SAK-XC167CI-32F40FBB-A Datasheet - Page 71

Microcontrollers (MCU) 256KB FLASH 12KB RAM 2xASC 2xSSC I2C

SAK-XC167CI-32F40FBB-A

Manufacturer Part Number

SAK-XC167CI-32F40FBB-A

Description

Microcontrollers (MCU) 256KB FLASH 12KB RAM 2xASC 2xSSC I2C

Manufacturer

Infineon Technologies

Datasheet

1.SAK-XC167CI-32F40FBB-A.pdf (90 pages)

Specifications of SAK-XC167CI-32F40FBB-A

Data Bus Width

16 bit

Program Memory Type

Flash

Program Memory Size

256 KB

Data Ram Size

12 KB

Interface Type

2xASC, 2xSSC, 1xI2C

Maximum Clock Frequency

40 MHz

Number Of Programmable I/os

103

Number Of Timers

Operating Supply Voltage

5 V

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Package / Case

PG-TQFP-144

Minimum Operating Temperature

- 40 C

On-chip Adc

10 bit, 16 Channel

Lead Free Status / Rohs Status

Details

Other names

KX167CI32F40FBBAXT

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Company:

Amily Shenzhen XNWY Technology Co., Ltd

Part Number:

SAK-XC167CI-32F40FBB-A

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CPU and EBC are clocked with the CPU clock signal

same frequency as the master clock (

two:

The specification of the external timing (AC Characteristics) depends on the period of the

CPU clock, called “TCP”.

The other peripherals are supplied with the system clock signal

frequency as the CPU clock signal

Bypass Operation

When bypass operation is configured (PLLCTRL = 0x

the internal oscillator (input clock signal XTAL1) through the input- and output-

prescalers:

If both divider factors are selected as ‘1’ (PLLIDIV = PLLODIV = ‘0’) the frequency of

directly follows the frequency of

cycle of the input clock

The lowest master clock frequency is achieved by selecting the maximum values for both

divider factors:

Phase Locked Loop (PLL)

When PLL operation is configured (PLLCTRL = 11

enabled and provides the master clock. The PLL multiplies the input frequency by the

factor F (

the output divider (F = PLLMUL+1 / (PLLIDIV+1 × PLLODIV+1)). The PLL circuit

synchronizes the master clock to the input clock. This synchronization is done smoothly,

i.e. the master clock frequency does not change abruptly.

Due to this adaptation to the input clock the frequency of

is locked to

of individual TCMs.

The timing listed in the AC Characteristics refers to TCPs. Because

circumstances.

The actual minimum value for TCP depends on the jitter of the PLL. As the PLL is

constantly adjusting its output frequency so it corresponds to the applied input frequency

(crystal or oscillator) the relative deviation for periods of more than one TCP is lower than

for one single TCP (see formula and

This is especially important for bus cycles using waitstates and e.g. for the operation of

timers, serial interfaces, etc. For all slower operations and longer periods (e.g. pulse train

Data Sheet

, the timing must be calculated using the minimum TCP possible under the respective

CPU

OSC

/ ((PLLIDIV + 1) × (PLLODIV + 1)).

/ ((3 + 1) × (14 + 1)) =

OSC

/ 2. This factor is selected by bit CPSYS in register SYSCON1.

OSC

. The slight variation causes a jitter of

× F) which results from the input divider, the multiplication factor, and

OSC

CPU

so the high and low time of

Figure

/ 60.

CPU

16).

) or can be the master clock divided by

) the on-chip phase locked loop is

CPU

) the master clock is derived from

which also affects the duration

. The CPU clock can have the

is constantly adjusted so it

SYS

Electrical Parameters

is defined by the duty

which has the same

CPU

XC167CI-32F

is derived from

Derivatives

V1.1, 2006-08

SAK-XC167CI-32F40FBB-A Infineon Technologies, SAK-XC167CI-32F40FBB-A Datasheet - Page 71

SAK-XC167CI-32F40FBB-A

Specifications of SAK-XC167CI-32F40FBB-A

Available stocks

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