L9823(2003) Просмотр технического описания (PDF) - STMicroelectronics
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Компоненты Описание
производитель
L9823
(Rev.:2003)
(Rev.:2003)
STMicroelectronics
L9823 Datasheet PDF : 12 Pages
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L9823
PIN FUNCTION
N°
Pin
Description
1
Out 7 Output 7
2
Out 6 Output 6
3
SCLK SCLK. The system clock pin (SCLK) clocks the internal shift registers of the L9823. The serial
input pin (SI) accepts data into the input shift register on the falling edge of the SCLK signal while
the serial output pin (SO) shifts data information out of the shift register on the rising edge of the
SCLK signal. False clocking of the shift register must be avoided to guarantee validity of data. It
is essential that the SCLK pin be in a logic low state whenever chip select bar pin (CSB) makes
any transition. For this reason, it is recommended though not necessary, that the SCLK pin be
kept in a low logic state as long as the device is not accessed (CSB in logic high state). When
CSB is in a logic high state, any signal at the SCLK and SI pin is ignored and SO is tri-stated
(high-impedance).
4
SI SI. This pin is for the input of serial instruction data. SI information is read in on the falling edge
of SCLK. A logic high state present on this pin when the SCLK signal rises will program a
specific output OFF, and in turn, turns OFF the specific output on the rising edge of the CSB
signal. Conversely, a logic low state present on the SI pin will program the output ON, and in
turn, turns ON the specific output on the rising edge of the CSB signal. To program the eight
outputs of the L9823 ON or OFF, an eight bit serial stream of data is required to be entered into
the SI pin starting with Output 7, followed by Output 6, Output 5, etc., to Output 0. For each rise
of the SCLK signal, with CSB held in a logic low state, a databit instruction (ON or OFF) is
loaded into the shift register per the databit SI state. The shift register is full after eight bits of
information have been entered. To preserve data integrity, care should be taken to not transition
SI as SCLK transitions from a low-to-high logic state.
5
GND GND
6
GND GND
7
GND GND
8
GND GND
9
SO SO. The serial output (SO) pin is the tri-stateable output from the shift register. The SO pin
remains in a high impedance state until the CSB pin goes to a logic low state. The SO data
reports the drain status, either high or low. The SO pin changes state on the rising edge of SCLK
and reads out on the falling edge of SCLK. When an output is OFF and not faulted, the
corresponding SO databit is a high state. When SO an output is ON, and there is no fault, the
corresponding databit on the SO pin will be a low logic state. The SI / SO shifting of data follows
a first-in-first-out protocol with both input and output words transferring the Most Significant Bit
(MSB) first. The SO pin is not affected by the status of the Reset pin.
10
CSB CSB. The system MCU selects the L9823 to be communicated with through the use of the CSB
pin. Whenever the pin is in a logic low state, data can be transferred from the MCU to the L9823
and vise versa. Clocked-in data from the MCU is transferred from the L9823 shift register and
latched into the power outputs on the rising edge of the CSB signal. On the falling edge of the
CSB signal, drain status information is transferred from the power outputs and loaded into the
device's shift register. The CSB pin also controls the output driver of the serial output pin.
Whenever the CSB pin goes to a logic low state, the SO pin output driver is enabled allowing
information to be transferred from the L9823 to the MCU. To avoid any spurious data, it is
essential that the high-to-low transition of the CSB signal occur only when SCLK is in a logic low
state.
11
Out 5 Output 5
12
Out 4 Output 4
13
Out 3 Output 3
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