STEVAL-PCC012V1 STMicroelectronics, STEVAL-PCC012V1 Datasheet - Page 85

STEVAL-PCC012V1

Manufacturer Part Number

STEVAL-PCC012V1

Description

BOARD DEM CONN GATEWAY STM32F107

Manufacturer

STMicroelectronics

Series

STM32r

Type

Other Power Managementr

Datasheets

1.STM32F105V8T6.pdf (101 pages)

2.STEVAL-PCC012V1.pdf (10 pages)

3.EVALST7590-1.pdf (43 pages)

Specifications of STEVAL-PCC012V1

Main Purpose

Interface, Connectivity

Embedded

Yes, MCU, 32-Bit

Utilized Ic / Part

STM32F107

Primary Attributes

Ethernet and 4 Digital/Analog Connectors

Secondary Attributes

On-Board LEDs and Joystick

Interface Type

Ethernet, USB, I2C, SPI, UART

Operating Supply Voltage

3.3 V

Product

Power Management Development Tools

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

STM32F107xx

Other names

497-10757

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

STEVAL-PCC012V1

Manufacturer:

STMicroelectronics

Quantity:

Current page: 85 of 101
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STM32F105xx, STM32F107xx

6.2.2

Selecting the product temperature range

When ordering the microcontroller, the temperature range is specified in the ordering

information scheme shown in

Each temperature range suffix corresponds to a specific guaranteed ambient temperature at

maximum dissipation and, to a specific maximum junction temperature.

As applications do not commonly use the STM32F103xx at maximum dissipation, it is useful

to calculate the exact power consumption and junction temperature to determine which

temperature range will be best suited to the application.

The following examples show how to calculate the temperature range needed for a given

application.

Example 1: High-performance application

Assuming the following application conditions:

Thus: P

Using the values obtained in

This is within the range of the suffix 6 version parts (–40 < T

In this case, parts must be ordered at least with the temperature range suffix 6 (see

Table 61: Ordering information

Example 2: High-temperature application

Using the same rules, it is possible to address applications that run at high ambient

temperatures with a low dissipation, as long as junction temperature T

specified range.

Assuming the following application conditions:

Thus: P

Maximum ambient temperature T

level with I

at low level with I

This gives: P

–

Maximum ambient temperature T

level with I

This gives: P

DDmax

Jmax

INTmax

IOmax

Dmax

INTmax

IOmax

Dmax

For LQFP100, 46 °C/W

= 82 °C + (46 °C/W × 447 mW) = 82 °C + 20.6 °C = 102.6 °C

= 175 + 272 = 447 mW

= 70 + 64 = 134 mW

= 50 mA, V

= 20 mA, V

= 20 × 8 mA × 0.4 V + 8 × 20 mA × 1.3 V = 272 mW

= 20 × 8 mA × 0.4 V = 64 mW

= 447 mW

= 134 mW

= 50 mA × 3.5 V= 175 mW

= 20 mA × 3.5 V= 70 mW

INTmax

= 8 mA, V

= 175 mW and P

= 70 mW and P

= 20 mA, V

= 3.5 V, maximum 20 I/Os used at the same time in output at low

Table 60

Table 61: Ordering information

Doc ID 15274 Rev 5

= 0.4 V and maximum 8 I/Os used at the same time in output

= 0.4 V

scheme).

Amax

= 1.3 V

Jmax

IOmax

= 82 °C (measured according to JESD51-2),

= 115 °C (measured according to JESD51-2),

is calculated as follows:

= 64 mW:

= 272 mW:

scheme.

< 105 °C).

Package characteristics

remains within the

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STEVAL-PCC012V1 STMicroelectronics, STEVAL-PCC012V1 Datasheet - Page 85

STEVAL-PCC012V1

Specifications of STEVAL-PCC012V1

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