STEVAL-IFS006V1 STMicroelectronics, STEVAL-IFS006V1 Datasheet - Page 43

STEVAL-IFS006V1

Manufacturer Part Number

STEVAL-IFS006V1

Description

BOARD EVAL 8BIT MICRO + TDE1708

Manufacturer

STMicroelectronics

Datasheets

1.TDE1708DFT.pdf (14 pages)

2.STEVAL-IFS006V1.pdf (136 pages)

3.STEVAL-IFS006V1.pdf (4 pages)

Specifications of STEVAL-IFS006V1

Design Resources

STEVAL-IFS006V1 Bill of Material

Sensor Type

Proximity

Interface

I²C

Voltage - Supply

6 V ~ 48 V

Embedded

Yes, MCU, 8-Bit

Utilized Ic / Part

ST7FLITEUS5, TDE1708

Processor To Be Evaluated

ST7LITEUS5

Data Bus Width

8 bit

Operating Supply Voltage

6 V to 48 V

Silicon Manufacturer

ST Micro

Silicon Core Number

TDE1708DFT

Kit Application Type

Sensing - Touch / Proximity

Application Sub Type

Proximity Switch

Kit Contents

Board

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Sensitivity

Sensing Range

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

497-6403
STEVAL-IFS006V1

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ST7LITEUS2, ST7LITEUS5

7.4

Note:

7.4.1

Note:

Caution:

System integrity management (SI)

The System Integrity Management block contains the low voltage detector (LVD) and

Auxiliary Voltage Detector (AVD) functions. It is managed by the SICSR register.

A reset can also be triggered following the detection of an illegal opcode or prebyte code.

Refer to

Low voltage detector (LVD)

The low voltage detector function (LVD) generates a static reset when the V

voltage is below a V

as the power-down keeping the ST7 in reset.

The V

for power-on in order to avoid a parasitic reset when the MCU starts running and sinks

current on the supply (hysteresis).

The LVD Reset circuitry generates a reset when V

●

The LVD function is illustrated in

The voltage threshold can be configured by option byte to be low, medium or high. See

Section 14.1: Option

Provided the minimum V

the MCU can only be in two modes:

●

In these conditions, secure operation is always ensured for the application without the need

for external reset hardware.

During a low voltage detector reset, the RESET pin is held low, thus permitting the MCU to

reset other devices.

Use of LVD with capacitive power supply: with this type of power supply, if power cuts occur

in the application, it is recommended to pull V

conditions. Refer to circuit example in

The LVD is an optional function which can be selected by option byte. See

page

disabled, an external circuitry must be used to ensure a proper Power-on reset.

It is recommended to make sure that the V

device is exiting from Reset, to ensure the application functions properly.

Make sure the right combination of LVD and AVD thresholds is used as LVD and AVD levels

are not correlated. Refer to

If an LVD reset occurs after a watchdog reset has occurred, the LVD will take priority and will

clear the watchdog flag.

Under full software control

In static safe reset

123. It allows the device to be used without any external RESET circuitry. If the LVD is

IT-(LVD)

IT+(LVD)

IT-(LVD)

Section 11.2.1: Illegal opcode reset

reference value for a voltage drop is lower than the V

when V

IT-(LVD)

bytes.

is falling

is rising

reference value. This means that it secures the power-up as well

value (guaranteed for the oscillator frequency) is above V

Table 47 on page 95

Figure

Figure 62

15.

for further details.

supply voltage rises monotonously when the

and note 4.

and

down to 0V to ensure optimum restart

Table 48 on page 96

is below:

IT+(LVD)

reference value

for more details.

Section 14.1 on

supply

Interrupts

IT-(LVD)

43/136

STEVAL-IFS006V1 STMicroelectronics, STEVAL-IFS006V1 Datasheet - Page 43

STEVAL-IFS006V1

Specifications of STEVAL-IFS006V1

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