St Spc572ladpt80s User manual

Introduction

The SPC572LADPT80S evaluation board supports STMicroelectronics SPC572L64E2 microcontroller in TQFP80-EP package.

Figure 1. SPC572LADPT80S

Note: picture not contractual.

SPC572LADPT80S evaluation board

UM2869

User manual

UM2869 - Rev 1 - June 2021

For further information contact your local STMicroelectronics sales office.

www.st.com

1Overview

The SPC572LADPT80S “mini module” is an evaluation board supporting STMicroelectronics SPC572L64E2

device in TQFP80-EP package.

This "mini module" is designed to be connected onto the SPC58xxMB motherboard, offering a mechanism

for easy customer evaluation of the SPC572Lxx family of device and to facilitate hardware and software

development. High density connectors provide the interface between the EVB and MCU daughter cards and

help the developers evaluate all device peripherals.

This user manual provides information on how to use the SPC572LADPT80S "mini module" board and its

hardware features.

The "mini module" may be used as a stand-alone unit and it allows access to the CPU, but no access to the I/O

pins as any motherboard peripherals.

Figure 2. Overview of SPC572LADPT80S "mini module" - top

UM2869

Overview

UM2869 - Rev 1 page 2/29

Figure 3. Overview of SPC572LADPT80S "mini module" - bottom

1.1 Supported devices

The SPC572LADPT80S evaluation board supports the following STMicroelectronics family of microcontrollers in

TQFP80-EP package:

• SPC572L64E2

UM2869

Supported devices

UM2869 - Rev 1 page 3/29

2License agreement

The packaging of this evaluation board was sealed with a seal stating, by breaking this seal, you agree to the

terms and conditions of the evaluation board license agreement, the terms and conditions of which are available

at:

https://www.st.com/resource/en/evaluation_board_terms_of_use/evaluationproductlicenseagreement.pdf

Upon breaking the seal, you and STMicroelectronics entered into the evaluation board license agreement, a copy

of which is also enclosed with the evaluation board for convenience.

Attention: This evaluation board only offers limited features for evaluating ST products. It has not been tested for use

with other products and is not suitable for any safety or other commercial or consumer application. This

evaluation board is otherwise provided “AS IS” and STMicroelectronics disclaims all warranties, express or

implied, including the implied warranties of merchantability and fitness for a particular purpose.

UM2869

License agreement

UM2869 - Rev 1 page 4/29

3Handling precautions

Please take care to handle the package content in order to prevent electrostatic discharge.

Before the EVB is used or power is applied, please fully read the following sections on how to correctly configure

the board. Failure to correctly configure the board may cause irreparable component, MCU or EVB damage.

UM2869

Handling precautions

UM2869 - Rev 1 page 5/29

4Hardware description

4.1 Hardware features

The SPC572LADPT80S "mini module" board has the following features:

• Can be used as a stand-alone board by providing external power supplies input (5 V, 3.3 V, 1.25 V)

• Reset button with driver and led indicator

• SPC572LADPT80S has socket for device in TQFP80-EP package

• Debug ports:

– 34-pin SAMTEC connector for Nexus 2

– 14-pin header connector for JTAG port

– 12-pin header connector for SIPI interface

– 40 MHz crystal main oscillator with jumpers to optionally disconnect it

– 8 MHz oscillator with jumpers to optionally disconnect it

– Clock input through SMA connector to optionally disconnect it

– 2 X SAMTEC QSH series, 240 way connector to connect "mini module" to motherboard

4.2 Hardware dimensions

The evaluation board has the following dimensions:

• PCB area: 127 mm x 114.3 mm

• Top components height: 18.8 mm

• Bottom components height: 3.5 mm

• PCB thickness 1.6 mm

4.3 Pin numbering for jumpers

3-pin jumpers for the "mini module" have rectangular pad to indicate the position of pin 1 and there is the PCB

silk-screen with the numbers of all the pins. See the example below for the numbering convention used in this

manual for jumpers settings:

Figure 4. Overview of 3-pin jumpers numbering convention

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Hardware description

UM2869 - Rev 1 page 6/29

6-pin jumpers for the “mini module” have the PCB serigraphy with the numbers of all pins. See the example below

for the numbering convention used in this manual for jumpers settings:

Figure 5. Overview of 6-pin jumpers numbering convention

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Pins numbering for jumpers

UM2869 - Rev 1 page 7/29

5Power and system configuration

5.1 Power supplies

When the "mini module" is plugged onto the motherboard, power is supplied directly by the motherboard. In this

setup, the external power supply input available on the "mini module" should NOT be used.

When the SPC572LADPT80S "mini module" is used as a stand-alone board, external power supplies must be

used (5 V, 3.3 V, 1.25 V).

The following jumpers are used to configure the power supply:

Table 1. Power supplies configuration jumpers

Jumper Description Default Position

VDD_HV_ADV voltage configuration:

• 1-2: 5V_LR (linear)

• 2-3: 5V_SW (switching)

1-2

(5V_LR)

Figure 10. SPC572LADPT80S "mini module" -

top - B2

VDD_HV_ADR_S voltage configuration:

• 1-2: 5V_LR (linear)

• 2-3: 5V_SW (switching)

1-2

(5V_LR)

Figure 10. SPC572LADPT80S "mini module" -

top - B2

VDD_HV_PMC configuration

• Open: VDD_HV_PMC not connected to

VDD_HV_IO_MAIN

• Closed: VDD_HV_PMC connected to

VDD_HV_IO_MAIN

Open Figure 10. SPC572LADPT80S "mini module" -

top - B2

VDD_HV_OSC0 voltage configuration:

• 1-2: 5V_SR

• 2-3: 3.3V_SR

1-2

(5V_SR)

Figure 10. SPC572LADPT80S "mini module" -

top - B2

VDD_HV_IO_MAIN voltage configuration:

• 1-2: 5V_SR

• 2-3: 3.3V_SR

1-2

(5V_SR)

Figure 10. SPC572LADPT80S "mini module" -

top -

VDD_HV_IO_FLEX voltage configuration:

• 1-2: 5V_SR

• 2-3: 3.3V_SR

1-2

(5V_SR)

Figure 10. SPC572LADPT80S "mini module" -

top - B2

VDD_LV1 configuration for external 1.25 V use:

• Open: VDD_LV1 not connected to JP1

• Closed: VDD_LV1 connected to JP1

Open Figure 10. SPC572LADPT80S "mini module" -

top - C2

J25

VDD_LV2 configuration for external 1.25 V use:

• Open: VDD_LV2 not connected to JP1

• Closed: VDD_LV2 connected to JP1

Open Figure 10. SPC572LADPT80S "mini module" -

top - B2

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Power and system configuration

UM2869 - Rev 1 page 8/29

5.2 Port configuration

The following jumpers need to configure the ports:

Table 2. Ports related jumpers

Jumper Description Default Position

PD[6] connection to QSH connectors configuration:

• Open: PD[6] not connected to QSH connectors

(motherboard)

• Closed: PD[6] connected to QSH connectors

(motherboard)

Closed Figure 10. SPC572LADPT80S "mini module"

- top - C2

J10

PD[6] connection to EVTI configuration:

• Open: PD[6] not connected to EVTI

• Closed: PD[6] connected to EVTI

Open Figure 10. SPC572LADPT80S "mini module"

- top - C2

J11

TESTMODE connection configuration:

• Open: TESTMODE not connected

• Closed: TESTMODE connected to:

– R6 Mounted: pulldown (default)

– R3 Mounted: pullup

Closed

(default

pull-down)

Figure 10. SPC572LADPT80S "mini module"

- top - A2

J27

PD[6] connection to EVTO configuration:

• Open: PD[6] not connected to EVTO

• Closed: PD[6] connected to EVTO

Open Figure 10. SPC572LADPT80S "mini module"

- top - C2

JP2

PA[6] connection configuration:

• 1-2: PA[6] connected to TCK

• 2-3: PA[6] connected to DRCLK

1-2 (TCK) Figure 10. SPC572LADPT80S "mini module"

- top - B2

JP3

PA[9] connection to QSH connectors configuration:

• Open: PA[9] not connected to QSH connectors

(motherboard)

• Closed: PA[9] connected to QSH

Open Figure 10. SPC572LADPT80S "mini module"

- top - B2

JP5

PA[8] connection configuration:

• 1-2: PA[8] connected to TDI

• 2-3: PA[8] connected to SIPI_TXP

1-2 (TDI) Figure 10. SPC572LADPT80S "mini module"

- top - B2

JP7

PF[13] connection to QSH connectors configuration:

• Open: PF[13] not connected to QSH connectors

(motherboard)

• Closed: PF[13] connected to QSH

Closed Figure 10. SPC572LADPT80S "mini module"

- top - B2

JP8

PD[6] connection to SIPI_TXN configuration:

• Open: PD[6] not connected to SIPI_TXN

• Closed: PD[6] connected to SIPI_TXN

Open Figure 10. SPC572LADPT80S "mini module"

- top - B2

JP9

PD[7] connection to QSH connectors configuration:

• Open: PD[7] not connected to QSH connectors

(motherboard)

• Closed: PD[7] connected to QSH

Closed Figure 10. SPC572LADPT80S "mini module"

- top - B2

JP10

PA[6] connection to QSH connectors configuration:

• Open: PA[6] not connected to QSH connectors

(motherboard)

• Closed: PA[6] connected to QSH

Open Figure 10. SPC572LADPT80S "mini module"

- top - B2

JP11

PA[7] connection to QSH connectors configuration:

• Open: PA[7] not connected to QSH connectors

(motherboard)

• Closed: PA[7] connected to QSH

Open Figure 10. SPC572LADPT80S "mini module"

- top - B2

UM2869

Port configuration

UM2869 - Rev 1 page 9/29

Jumper Description Default Position

JP12

PA[8] connection to QSH connectors configuration:

• Open: PA[8] not connected to QSH connectors

(motherboard)

• Closed: PA[8] connected to QSH

Open Figure 10. SPC572LADPT80S "mini module"

- top - B2

5.3 System clock configuration

The "mini module" supports the usage of crystal clock sources as well as external clock source:

Table 3. System clock related jumpers

Jumper Description Default Position

J13

• EXTAL connection configuration:

– 1-2: EXTAL connected to 40 MHz crystal

clock source

– 2-3: EXTAL connected to EXTAL EVB clock

source

1-2

(XT1 pin2)

Figure 10. SPC572LADPT80S "mini module" -

top - C3

J15

• XTAL connection configuration:

– 1-2: XTAL connected to 40 MHz crystal

clock source

– 2-3: XTAL connected to XTAL EVB clock

source

1-2

(XT1 pin1)

Figure 10. SPC572LADPT80S "mini module" -

top - C3

J17

• 8MHz oscillator enable jumper:

– Open: 8MHz oscillator not enabled

– Closed: 8MHz oscillator enabled

Open Figure 10. SPC572LADPT80S "mini module" -

top - D3

J19

• External clock source jumper selector:

– 1-2: from 8MHz oscillator

– 2-3: from SMA connector

1-2 Figure 10. SPC572LADPT80S "mini module" -

top - C3

UM2869

System clock configuration

UM2869 - Rev 1 page 10/29

5.4 Reset circuit configuration

The "mini module" supports different ways to reset the devices. To use and perform the reset driving there are

different jumpers and switches:

Table 4. Reset configuration jumpers

Jumper Description Default Position

SW1 Reset push button Open Figure 10. SPC572LADPT80S "mini module"

- top - D1

J18

External reset connection to ESR0 pin configuration:

• Open: the external reset is not connected to ESRO

• Closed: the external reset is connected to ESRO pin

Closed Figure 10. SPC572LADPT80S "mini module"

- top - D1

J20

External reset connection to reset driver configuration:

• Open: the external reset is not connected to the reset

driver for ESRO and PORST pins

• Closed: the external reset is connected to the reset

driver for ESRO and PORST pins

Closed Figure 10. SPC572LADPT80S "mini module"

- top - D1

J21

External reset connection to PORST pin configuration:

• Open: the external reset is not connected to PORST

• Closed: the external reset is connected to PORST pin

Closed Figure 10. SPC572LADPT80S "mini module"

- top - D2

5.5 Connectors

The "mini module" has other connectors described in the table below:

Table 5. Connectors

Connectors Description Position

J12 14-pin header connector for JTAG port Figure 10. SPC572LADPT80S "mini module" - top -

J14 34-pin SAMTEC connector for Nexus 2 Figure 10. SPC572LADPT80S "mini module" - top -

J16 10-pin SIPI interface connector Figure 10. SPC572LADPT80S "mini module" - top -

J2 External power supplies input Figure 10. SPC572LADPT80S "mini module" - top -

J23, J24 2 X SAMTEC QSH series, 240 way connector to

connect "mini module" to motherboard Figure 11. SPC572LADPT80S "mini module" - bottom

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Reset circuit configuration

UM2869 - Rev 1 page 11/29

The following figure shows the JTAG connector scheme:

Figure 6. JTAG connector scheme

The following table shows the JTAG connector pinout:

Table 6. JTAG Header 2x7 pins connector pinout

Pin number Signal

1 TDI

2 GND

3 TDO

4 GND

5 TCK

6 GND

7 EVTI

8 PORST

9 ESR0

10 TMS

11 VDD_HV_IO_MAIN

12 GND

13 EVTO

14 N.C.

UM2869

Connectors

UM2869 - Rev 1 page 12/29

Figure 7. NEXUS SAMTEC ASP-137973-01

Table 7. NEXUS SAMTEC ASP-137973-01 connector pinout

Pin number Signal

1 N.C.

2 3.3 V

3 N.C.

4 TCK

5 GND

6 TMS

7 TX1P

8 TDI

9 TX1N

10 TDO

11 GND

12 JCOMP

13 N.C.

14 N.C.

15 N.C.

16 EVTI

17 GND

UM2869

Connectors

UM2869 - Rev 1 page 13/29

Pin number Signal

18 EVTO

19 N.C.

20 PORST

21 N.C.

22 ESR0

23 GND

24 GND

25 N.C.

26 N.C.

27 N.C.

28 N.C.

29 GND

30 GND

31 N.C.

32 N.C.

33 N.C.

34 N.C.

SH1 GND

SH2 GND

The following figure shows the SIPI interface scheme:

Figure 8. SIPI interface scheme

UM2869

Connectors

UM2869 - Rev 1 page 14/29

The following picture shows the SIPI interface connector pinout:

Table 8. SIPI interface connector pinout

Pin number Signal

1 SIPI_TXP

2 GND

3 SIPI_TXN

4 GND

5 GND

6 DRCLK

7 SIPI_RXN

8 GND

9 SIPI_RXP

10 GND

The following figure shows the external power supply connector scheme:

Figure 9. External power supply connector scheme

Table 9. External power supply connector pinout

Pin number Signal

1 1.25 V

2 3.3 V

3 5 V

4 GND

UM2869

Connectors

UM2869 - Rev 1 page 15/29

5.6 Test points

Several test points of different shape and functionality are scattered around the SPC572LADPT80S evaluation

board to allow easy access to MCU and reference signals. This chapter summarizes and describes the available

test points. Test points are listed and detailed in the following table.

Table 10. Test points

Test point Description Position

GT1 GND test point Figure 10. SPC572LADPT80S "mini module" - top - A3

GT2 GND test point Figure 10. SPC572LADPT80S "mini module" - top - D3

GT3 GND test point Figure 10. SPC572LADPT80S "mini module" - top - C2

GT4 GND test point Figure 10. SPC572LADPT80S "mini module" - top - A1

GT5 GND test point Figure 10. SPC572LADPT80S "mini module" - top - D1

TP1 AGND test point Figure 10. SPC572LADPT80S "mini module" - top - C3

TP2 TRST test point (JTAG) Figure 10. SPC572LADPT80S "mini module" - top - A1

TP3 TCK test point (JTAG) Figure 10. SPC572LADPT80S "mini module" - top - A2

TP4 TMS test point (JTAG) Figure 10. SPC572LADPT80S "mini module" - top - A1

TP5 TDI test point (JTAG) Figure 10. SPC572LADPT80S "mini module" - top - A2

TP6 TDO test point (JTAG) Figure 10. SPC572LADPT80S "mini module" - top - A2

TP7 SIPI_TXN test point Figure 10. SPC572LADPT80S "mini module" - top - C2

TP8 SIPI_TXP test point Figure 10. SPC572LADPT80S "mini module" - top - C2

TP9 SIPI_RXN test point Figure 10. SPC572LADPT80S "mini module" - top - C2

TP10 SIPI_RXP test point Figure 10. SPC572LADPT80S "mini module" - top - C2

TP11 J23A, QSH connector, pin10 (PA[5]) test point Figure 10. SPC572LADPT80S "mini module" - top - A4

TP16 J23A, QSH connector, pin19 (PA[14]) test point Figure 10. SPC572LADPT80S "mini module" - top - A4

TP17 J24B, QSH connector, pin210 (PD[6]) test point Figure 10. SPC572LADPT80S "mini module" - top - C1

TP18 J24B, QSH connector, pin209 (PD[7]) test point Figure 10. SPC572LADPT80S "mini module" - top - D1

TP19 J24B, QSH connector, pin183 (PF[13]) test point Figure 10. SPC572LADPT80S "mini module" - top - C1

UM2869

Test points

UM2869 - Rev 1 page 16/29

6Layout overview

Figure 10. SPC572LADPT80S "mini module" - top

AB C D

UM2869

Layout overview

UM2869 - Rev 1 page 17/29

Figure 11. SPC572LADPT80S "mini module" - bottom

AB C D

UM2869

Layout overview

UM2869 - Rev 1 page 18/29

7BOM

Table 11. BOM

# Item Qty Reference Value Option Description

1 C1 1 CCERSMD225-0805M 2.2 uF

Mult. cer. cap.

16V SMD 0805 -

automotive series

C2, C5, C8, C10,

C13, C16, C19, C22,

C29, C32, C39

11 CCERSMD104-0603M 100 nF Mult. cer. cap. 50V

SMD 0603

C3, C6, C9, C11,

C14, C17, C20, C30,

C33

9 CCERSMD102-0603V 1 nF Mult. cer. cap. 100V

SMD 0603

4C4, C7, C12, C15,

C18, C21 6 CCERSMD475-0805M 4.7 uF Mult. cer. cap. 16V

SMD 0805

5 C23 1 CCERSMD473-0603M 47 nF Mult. cer. cap. 50V

SMD 0603

6 C24, C28, C31 3 2.2 uF DNP DNP

Mult. Cer. cap.

16V SMD 0805 -

Automotive Series

7 C34, C38 2 47 pF DNP DNP Mult. cer. cap. 50V

SMD 0603

8 C35 1 CCERSMD270-0603 27 pF Mult. cer. cap. 50V

SMD 0603

9 C36, C37 2 10 pF DNP DNP Mult. cer. cap. 50V

SMD 0603

10 DUT1 1 ZOCC80ETQFP LAVAREDO - TQFP80-EP

LAVAREDO - device

under test - TQFP80-

EP - YAMAICHI -

IC234-0804-055P-2

11 GT1, GT2, GT3, GT4,

GT5, TP1 6 TEST2 TESTPOINT PCB test point -

raised loops

12 J1, J3, J5, J6, J7,

J13, J15, J19 8 STRIP3PM STRIP3PM Male strip 3 poles

13 J2 1 TYCO-1437671-6 1437671-6

TYCO board Mount

screwless connector -

pitch 5.08 mm 90°

14 J4, J9, J11, J18, J20,

J21 6 STRIP2PM STRIP2PM Closed Male strip 2 poles

15 J8, J10, J17, J25, J27 5 STRIP2PM STRIP2PM Open Male strip 2 poles

16 J12 1 M.14.180 LP-3M N2514-6002RB

3M conn flat male 14

pins, straight - pitch

2.54 mm

17 J14 1 SAM-ASP13797301 SAMTEC ASP-137973-01

SAMTEC 0.8 mm

pitch - connector

SMD 17x2 - NEXUS

connector

18 J16 1 CONNERF805X2-SMD ERF8-005-05.0-L-DV-L-

SAMTEC 0.8

mm pitch rugged

high speed SMD

connector

19 J22 1 BNC-SMA-FEM-180 BNC-SMA-FEM-180 Conn. RF SMA 180°

UM2869

BOM

UM2869 - Rev 1 page 19/29

# Item Qty Reference Value Option Description

20 J23, J24 2 SAM-QSH12001LDA SAMTEC

QSH-120-01-L-D-A

SAMTEC 0.5 mm

pitch high speed SMD

socket

21 JP2, JP5 2 Close

1-2 Jumper SMD

22 JP3, JP8, JP10,

JP11, JP12 5 Jumper SMD

23 JP7, JP9 2 Closed Jumper SMD

24 LD1 1 LEDSMDGIAL-0805 Yellow Led diode yellow

SMD 0805

25 LD2 1 LEDSMDRED-0805 Red Led diode red SMD

0805

26 OSC1 1 Q8MHZ-SMD-3953M 8 MHz Hybrid quartz osc

SMD ECS 3953M

27 R1 1 RESMD49R9-805 49R9 Resistor 1/10W 1%

SMD 0805

28 R2, R15 2 RESMD000-0603 0R Resistor 1/10W 1%

SMD 0603

29 R3, R14 2 10K DNP DNP Resistor 1/10W 1%

SMD 0603

30 R4, R5, R25 3 RESMD472-0603 4K7 Resistor 1/10W 1%

SMD 0603

31 R6, R8, R23 3 RESMD103-0603 10K Resistor 1/10W 1%

SMD 0603

32 R7 1 0R DNP DNP Resistor 1/10W 1%

SMD 0603

33 R21, R22 2 RESMD561-0603 560R Resistor 1/10W 1%

SMD 0603

34 R24, R26 2 RESMD221-0603 220R Resistor 1/10W 1%

SMD 0603

35 R27 1 RESMD101-0603 100R Resistor 1/10W 1%

SMD 0603

36 SW1 1 PULSANTEG Pushbutton Pushbutton for pcb 4

pins

TP2, TP3, TP4, TP5,

TP6, TP7, TP8, TP9,

TP10, TP11, TP16,

TP17, TP18, TP19

14 DNP Testpoint SMD

38 U1 1 74LVC125AMTR-SMD 74LVC125AMTR I.C. quad bus buffers

SO14

39 U3 1 74V1G08-SMD 74V1G08STR

I.C. single 2-input

and gate - SMD

SOT23-5L

40 XT1 1 Q40MHZ-SMD-5032 40 MHz

Quartz 40 MHz SMD

NX5032GA XTAL

NDK

41 C1 1 CCERSMD225-0805M 2.2 uF

Mult. cer. cap.

16V SMD 0805 -

automotive series

UM2869

BOM

UM2869 - Rev 1 page 20/29

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