MCZ33991EG Freescale, MCZ33991EG Datasheet - Page 27

MCZ33991EG

Manufacturer Part Number

MCZ33991EG

Description

Manufacturer

Freescale

Datasheet

1.MCZ33991EG.pdf (36 pages)

Specifications of MCZ33991EG

Operating Current

6mA

Operating Temperature Classification

Automotive

Package Type

SOIC W

Operating Supply Voltage (min)

4.5V

Operating Supply Voltage (typ)

Operating Supply Voltage (max)

5.5V

Lead Free Status / RoHS Status

Compliant

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Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MCZ33991EG

Manufacturer:

FREESCALE

Quantity:

20 000

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functions and internal registers will operate as though all of

the addressable configuration register bits were set to

logic[0]. This means, for example, all of the outputs will be

disabled after a power-up or external reset, SO flag ST6 is

set, indicating an under voltage event. Anytime an external

reset is exerted and the default is restored, all configuration

parameters, e.g., clock calibration, maximum speed, RTZ

parameters, etc. are lost and must be reloaded.

FAULT LOGIC REQUIREMENTS

they occur:

• Over temperature fault

• Out- of- range voltage faults

• Clock out of specification

likely an over current condition will become a thermal issue

and be reported.

OVER TEMPERATURE FAULT REQUIREMENTS

circuitry, shutting off the affected Gauge Driver when

excessive temperatures are measured. In the event of a

thermal overload, the affected gauge driver will be

automatically disabled. The over temperature fault is flagged

via ST0 and/or ST1. Its respective flag continues to be set

until the affected gauge is successfully re-enabled, provided

the junction temperature falls below the hysteresis level.

OVER VOLTAGE FAULT REQUIREMENTS

the maximum specified in the Maximum Ratings Table. V

levels resulting in an Over Voltage Shut Down condition can

result in uncertain pointer positions. Therefore, the pointer

position should be re-calibrated. The master will be notified of

an over voltage event via the ST6 flag on the SO pin. Over

voltage detection and notification will occur regardless of

whether the gauge(s) are enabled or disabled.

variety of applications. Table 15, and the sample code,

provides a step-by-step example of configuring using many

of the features designed into the IC. This example is intended

to give a generic overview of how the device could be used.

Further, it is intended to familiarize users with some of its

capabilities. In Steps 1-9, the gauges are enabled, the clock

is calibrated, the device is configured for RTZ, and the

pointers are calibrated with the RTZ command. Steps 1-9 are

Analog Integrated Circuit Device Data

Freescale Semiconductor

The 33991 device indicates each of the following faults as

Over current faults are not reported directly; however, it is

The 33991 incorporate over temperature protection

The device is capable of surviving V

The 33991 is an extremely versatile device used in a

PWR

voltages within

APPLICATION INFORMATION

PWR

voltage fault and an under voltage fault from the status bits. If

there is no external means for the micro controller to

determine the fault type, the gauges should be routinely

enabled following the transition to logic [0] of ST6.

OVER CURRENT FAULT REQUIREMENTS

device will rely on Thermal Shutdown to protect itself.

UNDER VOLTAGE FAULT REQUIREMENTS

uncertain pointer positions; therefore, recalibration of the

pointer position may be advisable. During an under voltage

event, the state machine and outputs will continue to operate

although the outputs may be unable to reach the higher

voltage levels. The master is notified of an under voltage

event via the SO pin. Under voltage detection will occur

regardless whether the gauge(s) are enabled or disabled.

voltage fault and an under voltage fault from the status bits. If

there is no external means for the micro controller to

determine the fault type, the gauges should be routinely

enabled following the transition to logic [0] of ST6.

ELECTRICAL REQUIREMENTS

ground pins unless otherwise noted. Current flowing into the

33991is positive, while current flowing out of the device is

negative.

RESETS (SLEEP MODE)

level falls below the V

Electrical Characteristics, the device resets and powers up in

the Default mode. Similarly, If the RST pin is driven to a logic

[0], the device resets to its default state. The device

consumes the least amount of current (Idd and Ipwr) when

the RST pin is logic[0]. This is also be referred to as the Sleep

mode.

representative of the first steps after power-up. Maximum

velocity is set in Step 10, if necessary. In Steps 11 and 12,

pointers are commanded to the desired positions by the

master. These steps are the most frequently used during

normal operation. Steps 13 -15 place the pointer close to the

zero position prior to the initiation of the RTZ commands in

Steps 16-19. Step 20 disables the gauges, placing them into

a Low Quiescent Current mode.

Note: There is no way to distinguish between an over

Output currents will be limited to safe levels, then the

Severe under voltage V

Note: There is no way to distinguish between an over

All voltages specified are measured relative to the device

The device can reset internally or externally. If the V

TIMING DESCRIPTIONS AND DIAGRAMS

DDUV

PWR

level, specified in the Static

conditions may result in

APPLICATION INFORMATION

33991

MCZ33991EG Freescale, MCZ33991EG Datasheet - Page 27

MCZ33991EG

Specifications of MCZ33991EG

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