SA5778D,512 NXP Semiconductors, SA5778D,512 Datasheet - Page 6

SA5778D,512

Manufacturer Part Number

SA5778D,512

Description

IC AIR-CORE DRIVER 28-SOIC

Manufacturer

NXP Semiconductors

Datasheet

1.SA5778DCE1804512.pdf (16 pages)

Specifications of SA5778D,512

Applications

Automotive

Current - Supply

500µA

Voltage - Supply

8 V ~ 16 V

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

28-SOIC (7.5mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

935260762512
SA5778D
SA5778D

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Philips Semiconductors

Figure 6 shows the protection and gauge enable logic for the STGD.

The battery supply voltage V

exceeds the specified operating range, the STGD is put in a

shutdown mode in which the output buffers are disabled. The STGD

will also enter the shutdown mode by excessive die temperature,

and will return to normal operation when the die temperature

decreases to within specified limits. Thermal shutdown may occur at

105 C. Internal logic will continue to function and status may be read

out to determine the source of the shutdown. The STGD may be

1998 Apr 03

DATA

BATT

Serial triple gauge driver (STGD)

BATT

REFERENCE

Figure 6. Gauge Enable/Standby Circuit and Over Voltage

GOE

RUN

CLK

BATT

GOE

RUN

18-24V

SwBATT TRANSISTOR

supply voltages over 16V at high ambient temperatures near

Figure 5. Gauge Connections to the STGD

10K

PROTECTION

SwBATT, BIAS

THERMAL

–

BATT

Protection Circuit

DATA / STATUS SHIFT REGISTERS

SwControl

BATT

112 MINOR GAUGES

STATUS

LATCH

CONVERTERS and OUTPUT

DIGITAL-to-ANALOG

is monitored, and if the supply

MULTIPLEXERS

SwBATT1/2

LATCHES

REGULATOR

DATA

OUTPUT

BUFFER SUPPLY

DAC REFERENCES

BIAS COILS

EXTERNAL

GAUGE DRIVERS

360 MAJOR GAUGE

SR01121

SR01120

LOGIC

DATA

OUT

placed in a standby mode with a low on both the GOE and RUN

input pin. In this mode, battery current drain is minimized.

The SwBATT1 and SwBATT2 inputs are the supply for the DACs,

and the output buffers driving the coils including the COM output

which stabilizes the voltages applied to the bias coils of the minor

gauges. Both SwBATT1 and SwBATT2 should be connected to the

collector of the control transistor as these inputs are not connected

internally and supply different portions of the circuit. This switched

battery supply is protected from voltages exceeding the specified

operating range and is controlled by the SwCONTROL output. This

supply may optionally be used to supply additional circuits which

operate from unregulated battery supplies but which need protection

from over voltage transients. Typical devices which may benefit from

this protection include the Serial Gauge Driver, SA5775A and Dual

Gauge Driver, SA5777A, which are often used in conjunction with

the STGD in 4 and 5 gauge applications.

This switched battery supply is turned off when the STGD enters the

standby mode in response to the RUN and GOE inputs both being

low, or a V

switched battery supply depends on the RUN signal to prevent

undesired needle movement on the minor gauges when going from

standby to active mode. This movement would otherwise occur if

the voltage to the fixed bias coils of the minor gauges was switched

on before the coil voltages provided by the DACs within the STGD

were defined. The start up jump is prevented as follows. In the sleep

mode the switched battery supply is off, and the gauge drive outputs

of the STGD are in a high impedance state. The gauges are in their

zero position from the previous power-down sequence. When the

RUN input goes high, but the GOE is kept low, the STGD enters the

start up mode in which the minor gauges are driven to zero, the

internal 5V regulator for the logic is turned on, and the switched

battery supply is turned on to supply the bias coil and STGD output

buffers. However, the output buffers for the major gauge remain in

the high impedance output state. The microcontroller may load

values into the STGD via the serial interface while GOE is low.

When the microcontroller applies a high to GOE, the major gauge

output buffers are enabled. When the RUN signal is removed the

STGD continues to operate in the normal mode, however, the

controlling microcontroller should also monitor RUN and, when it

goes low, send a series of values to the STGD to move the needles

to their zero positions before taking GOE low to put the part in the

standby mode.

Table 1 describes the operation and control of the SwBATT supply,

the output buffers, and the operations normally performed by the

microcontroller. Normal operation of a vehicle will follow the

sequence of the truth table from top to bottom. The RUN input is

typically connected to the switched ignition voltage, while GOE is

controlled by the microcontroller.

BATT

supply exceeding the specified operating range. The

Product specification

SA5778

SA5778D,512 NXP Semiconductors, SA5778D,512 Datasheet - Page 6

SA5778D,512

Specifications of SA5778D,512

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