M60006P 查看數據表（PDF） - MITSUBISHI ELECTRIC

零件编号

产品描述 (功能)

生产厂家

M60006P

12-BIT I/O EXPANDER

MITSUBISHI ELECTRIC  

MITSUBISHI 〈DIGITAL ASSP〉

M66006P/FP

12-BIT I/O EXPANDER

FUNCTION

The M66006 realizes low power dissipation and high noise

immunity by applying silicon CMOS process.

Because a 12-bit serial-parallel shift register and a 12-bit par-

allel-serial shift register are independently built in this IC, it is

possible to read serial input data while converting parallel

data into serial data.

When CS changes from “H” to “L”, serial output of 12-bit par-

allel data and read of serial data from the MCU start. That is,

12-bit parallel data is latched at the falling edge of CS, syn-

chronized with the falling edge of shift clock, and then output

to serial output pin DO as serial data. At the same time, serial

data from the MCU is read to the internal shift register at the

rising edge of shift clock. The shift clock on and after 13th bit

is neglected and pin DO is put in the high impedance state

when the reading operation is masked. When CS changes

from “L” to “H”, 12-bit serial data read into pin DI is output to

parallel output pins from D1 to D12.

Because the output form of parallel output pins is N-channel

open drain output, “H” must be written to the pin to set to in-

put mode.

DESCRIPTION OF OPERATION

(1) When power is supplied, pins DO and from D1 to D12 are

in undefined state. When S changes to “L”, those pins are

in high impedance state.

(2) At the falling edge of CS, the status of pins from D1 to D12

is loaded to shift register !.

(3) At the falling edge of CLK, data which is loaded as above

(2) is output to pin DO as 12-bit serial data in order.

(4) At the rising edge of CLK, 12-bit serial data is written from

DI to shift register @.

(5) CLK on and after the 13th bit is neglected and writing of

serial data is not possible. Also, DO is put in the high im-

pedance state.

(6) At the rising edge of CS, the data which is written as men-

tioned in (4) is output to pins from D1 to D12.

(7) Shift register ! loads the data applied externally and the

AND-tie data latched by the parallel output latch.

(8) When CS rises before CLK reaches the 12th bit, the paral-

lel output latch latches the data which has been written to

shift register @ and outputs it to pins from D1 to D12. In

this case, shift registers ! and @ continues the shift op-

eration and DO outputs serial data until CLK reaches the

12th bit.

(9) Switching of I/O mode of pins from D1 to D12 is controlled

by the serial data which is input to pin DI. Pins to which “H”

is written operates as input pins.

OPERATION TIMING DIAGRAM

S

(1)

CS

(2)

(5)

CLK

1

2

3

4

5

6

7

8

9

10 11 12 13

(4)

(6)

DI

DO1 DO2 DO3 DO4 DO5 DO6 DO7 DO8 DO9 DO10 DO11 DO12

(3)

High impedance

DO

DI1 DI2 DI3 DI4 DI5 DI6 DI7 DI8 DI9 DI10 DI11 DI12

D1

DI1

D2

DI2

DI2

DI12

1 cycle

H

L

(6)

DO1

DO2

DO12

2

Share Link: