ST X-NUCLEO-OUT10A1 User Manual Download | Manualshive

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Introduction

The

X-NUCLEO-OUT10A1

industrial digital output expansion board for

provides an affordable and easy-to-use

solution for the development of 0.5 A (typ.) digital output modules, letting you easily evaluate the

diagnostic capabilities with industrial loads.

The

X-NUCLEO-OUT10A1

interfaces with the microcontroller on the STM32 Nucleo via 3 kV optocouplers driven by GPIO pins

and Arduino™ UNO R3 (default configuration) and ST morpho (optional, not mounted) connectors.

The expansion board should be connected to either a

development board, and can be

stacked with another

X-NUCLEO-OUT10A1

X-NUCLEO-OUT08A1

.

X-NUCLEO-OUT10A1

expansion boards allows you to evaluate a dual channel digital output module with 0.5 A (typ.)

capability each, or a 0.5 A (typ.) single channel safety digital output module. In the second scenario, the first shield output is
connected to the supply of the second one. Dedicated on-board hardware can be enabled or disabled to activate fast discharge
of high capacitive loads, output voltage sensing and additional surge pulse output line protection.

Figure 1.

X-NUCLEO-OUT10A1 expansion board

Getting started with X-NUCLEO-OUT10A1 industrial digital output expansion

board for STM32

Nucleo

UM2716

User manual

UM2716

-

Rev 1

-

June 2020

For further information contact your local STMicroelectronics sales office.

www.st.com

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Summary of Contents for X-NUCLEO-OUT10A1

Page 1: ...rd and can be stacked with another X NUCLEO OUT10A1 or an X NUCLEO OUT08A1 Two X NUCLEO OUT10A1 expansion boards allows you to evaluate a dual channel digital output module with 0 5 A typ capability each or a 0 5 A typ single channel safety digital output module In the second scenario the first shield output is connected to the supply of the second one Dedicated on board hardware can be enabled or...

Page 2: ... dissipation RON MAX 120 mΩ Fast decay for inductive loads Open load detection and diagnostics Overload and overheating protections with thermal shut down and cut off PowerSSO 12L package Application board operating range 12 33 V 0 to 0 7 A Extended voltage operating range J1 open up to 60 V Green LED for output ON OFF status Red LED for diagnostics open load cut off and overheating 3 kV galvanic ...

Page 3: ...tively it is possible to supply the STM32 Nucleo development board by the expansion board In this case an external supply voltage 7 12 V should be connected to CN2 connector not mounted by default on the expansion board and the ground loop should be closed by mounting D2 that enables reverse polarity protection or by closing J3 without reverse polarity To supply the VIN voltage rail is necessary t...

Page 4: ...ed at the predisposed locations the IPS161HF output stages do not require additional EMC protections with respect to IEC61000 4 2 10 kV contact 16 kV air IEC61000 4 4 4 kV IEC61000 4 5 3 5 kV standards 1 2 Hardware requirements The X NUCLEO OUT10A1 expansion board is designed to be used with the NUCLEO F401RE or NUCLEO G431RB STM32 Nucleo development boards To function correctly the X NUCLEO OUT10...

Page 5: ...d setup Step 1 Connect the X NUCLEO OUT10A1 to the NUCLEO F401RE or NUCLEO G431RB development board through the Arduino connectors Step 2 Connect the X NUCLEO OUT10A1 power section see Section 1 1 2 Power section Step 3 Connect the load between CN1 pins 2 and 3 Step 4 Connect the mini USB for NUCLEO F401RE or micro USB for NUCLEO G431RB cable between your PC and the STM32 Nucleo board Step 5 Downl...

Page 6: ...ut application you have to move some signal enabler resistors from DEFAULT to ALTERNATE position You can refer to the expansion board schematic and or to the table below where board 0 mounts all the resistors in their DEFAULT position Table 1 Pin position when using a board stack Board 0 Board 1 IN1 Nch_DRV DIAG OUT_FB IN1 Nch_DRV DIAG OUT_FB R101 R102 R103 R104 R111 R134 R112 R131 UM2716 Board se...

Page 7: ... 7 IN1 5 default open D2 BAT48 N M 25 ALTERNATE USE ALTERNATE USE DEFAULT ALTERNATE USE ALTERNATE USE ALTERNATE USE ALTERNATE USE ALTERNATE USE 3 4 2 IN1 19 35 10 30 38 C8 47uF N M DIAG 26 28 4 10 6 5V CN7 SSQ 119 04 L D N M 2 8 22 Nch DRV DEFAULT DEFAULT ALTERNATE USE 36 1 32 7 12 TP8 5001 Nch DRV ALTERNATE USE 3v3 30 7 CN6 SSQ 108 04 F S 18 32 C1 4700pF 3 6 1 D1 STPS1H100A 37 3 15 Nch DRV 3V3 9 ...

Page 8: ...6 5001 U1 IPS161HF OUT1 R727K D5 RED R12 22k 4 12 2 Vcc2 J5 6 11 ISO2 ACPL 217 50AE R32 2K 1 4 8 D3 BAT41ZFILM 7 Q1 STN2NF10 default closed default close 1 2 default closed default CLOSE 2 3 default 3 4 CLOSE 1 2 5 6 7 8 OPEN default closed default open default 3 4 CLOSE 1 2 5 6 7 8 OPEN default closed open load detection active 1 NC2 1 OUT_FB IN 3 2 5 2 1 Vcc1 C6 47nF SW1 con3 strip male 5 D7 STP...

Page 9: ...10003 9 0 CN2 Con2 7 4X7 pitch 3 5 mm Terminal block not mounted Wurth Electronics Inc 691214110002 10 1 CN5 SSQ 110 04 F S Connector Samtec Inc SSQ 110 04 F S 11 2 CN6 CN9 SSQ 108 04 F S Connectors Samtec Inc SSQ 108 04 F S 12 0 CN7 CN10 SSQ 119 04 L D Connectors Samtec Inc SSQ 119 04 L D 13 1 CN8 SSQ 106 04 F S Connector Samtec Inc SSQ 106 04 F S 14 2 D1 D7 DO 214AC SMA 1 A 100 V Power Schottky ...

Page 10: ...11 SMD 1 K Ohm 0603 1608 Metric 0 1 W 1 10 W 1 Resistor Yageo RC0603FR 071KL 31 2 R12 R13 SMD 22 K Ohm 0603 1608 Metric 0 1 W 1 10 W 1 Resistors Yageo RC0603FR 0722KL 32 1 R14 SMD 2 2 K Ohm 0603 1608 Metric 0 1 W 1 10 W 1 Resistor Yageo RC0603FR 072K2L 33 1 R15 SMD 68 K Ohm 0603 1608 Metric 0 1 W 1 10 W 1 Resistor Yageo RC0603FR 0768KL 34 1 R16 SMD 1 K Ohm 0603 1608 Metric 0 1 W 1 10 W 1 Resistor ...

Page 11: ...tion Manufacturer Order code 41 1 U2 DO 214AB SMC 1500 W 1 5 kW 1500 W TVS in SMC ST SM15T39CA 42 0 U3 2 UDFN High power transient voltage suppressor not mounted ST ESDA15P60 1U1M UM2716 Bill of materials UM2716 Rev 1 page 11 16 ...

Page 12: ...Revision history Table 3 Document revision history Date Revision Changes 12 Jun 2020 1 Initial release UM2716 UM2716 Rev 1 page 12 16 ...

Page 13: ... Overview 2 1 1 1 Digital section 2 1 1 2 Power section 3 1 2 Hardware requirements 4 1 3 System requirements 5 1 4 Board setup 5 2 Schematic diagrams 7 3 Bill of materials 9 Revision history 12 UM2716 Contents UM2716 Rev 1 page 13 16 ...

Page 14: ...List of tables Table 1 Pin position when using a board stack 6 Table 2 X NUCLEO OUT10A1 bill of materials 9 Table 3 Document revision history 12 UM2716 List of tables UM2716 Rev 1 page 14 16 ...

Page 15: ... digital interface components 3 Figure 3 X NUCLEO OUT10A1 expansion board power stage components 4 Figure 4 X NUCLEO OUT10A1 and STM32 Nucleo stack 5 Figure 5 X NUCLEO OUT10A1 circuit schematic 1 of 2 7 Figure 6 X NUCLEO OUT10A1 circuit schematic 2 of 2 8 UM2716 List of figures UM2716 Rev 1 page 15 16 ...

Page 16: ...cts and ST assumes no liability for application assistance or the design of Purchasers products No license express or implied to any intellectual property right is granted by ST herein Resale of ST products with provisions different from the information set forth herein shall void any warranty granted by ST for such product ST and the ST logo are trademarks of ST For additional information about S...

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