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STMicroelectronics IPS4260LM | Demoboard X-NUCLEO-OUT07A1
Industrial digital output expansion board based on IPS4260LM for STM32 Nucleo
Overview
| Topology | Other Topology |
| Input voltage | 8-50 V |
| IC revision | 1 |
Description
The X-NUCLEO-OUT07A1 industrial digital output expansion board for STM32 Nucleo provides a powerful and flexible environment for the evaluation of the driving and diagnostic capabilities of the IPS4260LM quad low-side smart power solid state relay, in a digital output module connected to 0.5 A industrial loads.Dual channels and single channel configurations are possible by proper setting of J9 and J10 (see below).The X-NUCLEO-OUT07A1 interfaces with the microcontroller on the STM32 Nucleo via STISO620 and STISO621 and Arduino®R3 connectors. The expansion board can be connected to either a NUCLEO-F401RE or a NUCLEO-G431RB development board.The digital isolators STISO620 and STISO621 (featuring 2.8k VRMS galvanic isolation) and the isolated dc-dc DC1 (featuring 3kVDC isolation) protects the logic side from the typical harsh environment on the process side.The logic side is the application side of the MCU and it is supplied by the VISO_L rail (3.3 or 5.0 V). When the X-NUCLEO-OUT07A1 is stacked on a NUCLEO-F401RE, or on a NUCLEO-G431RB, the VISO_L is supplied by the Nucleo board if connected to a PC/Laptop by USB cable. If the X-NUCLEO-OUT07A1 is used standalone, then VISO_L can be supplied by the CN6[4] (SW1 = close 1-2) or CN6[5] (SW1 = close 2-3).The process side is the application side beyond the galvanic isolation barrier. On the process side there are two supply rails: the 5V_P rail (5.0 V) and one rail between the 10V_P (SW7 close 1-2) and the V_FIELD_RP rail (SW7 close 2-3).Both the 5V_P and the 10V_P rails are generated by the DC1, while the V_FIELD_RP rail is supplied externally.The 5V_P rail supplies both the digital isolators and the red diagnostic LEDs D7 (open load detection) and D8 (overload and overtemperature diagnostic).The 10V_P rail supplies the IPS4260LM (U1): the loads are connected between the CN2[1, 2] and CN3[1, 2] connectors and the process side supply rail (typically 24 V). The reference rail (ground) of the power process side supply rail must be connected to CN1[2], too.Alternatively (SW7 close 2-3) the V_FILED_RP rail supplies U1: the loads are connected between the CN2[1, 2] and CN3[1, 2] connectors and the process side supply rail (typically 24 V). The positive pole and the ground of the power process side supply rail must be connected to CN1[1] and CN1[2], respectively.The SW8 allows the selection of which external TVS is used for the demagnetization of the inductive load and for sustaining the surge pulse on the output stage. Setting SW8 close to 1-2 the D9 is selected: this selection is valid both if U1 is supplied by the 10V_P or by the V_FIELD_RP rail. Setting SW8 close to 2-3 the D10 is selected: this selection is valid only when U1 is supplied by the V_FIELD_RP.The four low side power switches integrated in U1 can be activated/deactivated by the control signals IN1_L, IN2_L, IN3_L and IN4_L: by default, these signals are controlled by CN5[2,1] and CN9[8,7] through SW2[1-2], SW3[1-2], SW4[1-2] (IN4_L goes through direct connection to U6). .The four on board green LEDS D1, D2, D3, and D4 can be enabled by closing J6[1-2, 3-4, 5-6, 7-8]: these are driven ON/OFF according to the status (active/inactive) of the respective low side power switch (OUT1, OUT2, OUT3, OUT4) integrated in the U1.The user can enable/disable the cutoff featured by U1 by J8[7-8]: open (cutoff active) or closing (cutoff disabled).Also, J8[1-2, 3-4, 5-6] allows the user can set the desired current limitation level (J8[1-2] ==> 0.5A; J8[3-4] ==> 1A; J8[5-6] ==> 2A). The J9 and J10 allow the user to easily parallelize the input and output channels and achieve dual channel low side (J9[1-2, 5-6] and J10[1-2, 5-6]) or single channel low side (J9[1-2, 3-4, 5-6] and J10[1-2, 3-4, 5-6]).The open load detection feature offered by U1 is enabled only when the J7[1-2, 3-4, 5-6, 7-8] are closed. Note that the signalization of D7 must be ignored when J7 is open.The two cumulative diagnostic signals FLT_L (overload and overtemperature) and OL_L (open load) are available on the CN9[6] (SW6[1-2]) and on CN9[5], respectively.The four per-channel overload diagnostic signals DIAG1_L, DIAG2_L, DIAG3_L, DIAG4_L are available on the CN5[10] (SW5[1-2]), CN5[9], CN8[6] and CN8[5], respectively.It is also possible to evaluate a system composed of a X-NUCLEO-OUT07A1 stacked on other expansion boards.
Typical applications
- Industrial digital output
More information
Products
Order Code | Datasheet | Simulation | Downloads | Status | Product series | Pins | PCB/Cable/Panel | Modularity | Type | Wire Section | λDom typ.(nm) | Emitting Color | λPeak typ.(nm) | IV typ.(mcd) | VF typ.(V) | Chip Technology | 2θ50% typ.(°) | C | Tol. C | VR(V (DC)) | Size | Operating Temperature | Q(%) | DF(%) | RISO | Ceramic Type | L(mm) | W(mm) | H(mm) | Fl(mm) | Packaging | L(µH) | IRP,40K(A) | RDC max.(mΩ) | fres(MHz) | Mount | Endurance(h) | IRIPPLE(mA) | ILeak(µA) | Pitch(mm) | Ø D(mm) | IR(A) | Working Voltage(V (AC)) | Color | Gender | Samples | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
 | WR-PHD Jumper, 1, – | Simulation– | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWR-PHD Jumper | Pins1 | – | – | – | – | – | – | – | – | – | – | – | – | – | – | – | Operating Temperature -40 °C up to +125 °C | – | – | Insulation Resistance1000 MΩ | – | Length2.44 mm | – | – | – | PackagingBag | – | – | – | – | – | – | – | – | Pitch2.54 mm | – | Rated Current3 A | Working Voltage250 V (AC) | ColorBlack | GenderJumper | |||
 | WR-TBL Series 2141 - 3.50 mm Horiz. Entry Modular, 2, Rising Cage Clamp | Simulation– | Downloads6 files | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWR-TBL Series 2141 - 3.50 mm Horiz. Entry Modular | Pins2 | PCB/Cable/PanelPCB | ModularityYes | TypeHorizontal | Wire Section 24 to 16 (AWG) 0.2 to 1 (mm²) | – | – | – | – | – | – | – | – | – | – | – | Operating Temperature -40 °C up to +105 °C | – | – | – | – | Length7.05 mm | – | – | – | PackagingBox | – | – | – | – | MountTHT | – | – | – | Pitch3.5 mm | – | Rated Current10 A | Working Voltage300 V (AC) | – | – | ||
 | WR-PHD Pin Header - Single, 2, – | Simulation– | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWR-PHD Pin Header - Single | Pins2 | – | – | TypeStraight | – | – | – | – | – | – | – | – | – | – | – | – | Operating Temperature -40 °C up to +105 °C | – | – | Insulation Resistance1000 MΩ | – | Length5.08 mm | – | – | – | PackagingBag | – | – | – | – | MountTHT | – | – | – | Pitch2.54 mm | – | Rated Current3 A | Working Voltage250 V (AC) | – | GenderPin Header | |||
 | WR-PHD Pin Header - Single, 3, – | Simulation– | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWR-PHD Pin Header - Single | Pins3 | – | – | TypeStraight | – | – | – | – | – | – | – | – | – | – | – | – | Operating Temperature -40 °C up to +105 °C | – | – | Insulation Resistance1000 MΩ | – | Length7.62 mm | – | – | – | PackagingBag | – | – | – | – | MountTHT | – | – | – | Pitch2.54 mm | – | Rated Current3 A | Working Voltage250 V (AC) | – | GenderPin Header | |||
 | WR-PHD Pin Header - Dual, 6, – | Simulation– | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWR-PHD Pin Header - Dual | Pins6 | – | – | TypeStraight | – | – | – | – | – | – | – | – | – | – | – | – | Operating Temperature -40 °C up to +105 °C | – | – | Insulation Resistance1000 MΩ | – | Length7.62 mm | – | – | – | PackagingBag | – | – | – | – | MountTHT | – | – | – | Pitch2.54 mm | – | Rated Current3 A | Working Voltage250 V (AC) | – | GenderPin Header | |||
 | Simulation– | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWR-PHD Pin Header - Dual | Pins8 | – | – | TypeStraight | – | – | – | – | – | – | – | – | – | – | – | – | Operating Temperature -40 °C up to +105 °C | – | – | Insulation Resistance1000 MΩ | – | Length10.16 mm | – | – | – | PackagingBag | – | – | – | – | MountTHT | – | – | – | Pitch2.54 mm | – | Rated Current3 A | Working Voltage250 V (AC) | – | GenderPin Header | ||||
 | WE-GF SMT Wire Wound Inductor, –, – | Simulation– | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWE-GF SMT Wire Wound Inductor | – | – | – | – | – | – | – | – | – | – | – | – | – | – | – | Size3225 | Operating Temperature -40 °C up to +105 °C | Q-Factor30 % | – | – | – | Length3.2 mm | Width2.5 mm | Height2.2 mm | – | – | Inductance6.8 µH | Performance Rated Current0.55 A | DC Resistance1800 mΩ | Self Resonant Frequency38 MHz | MountSMT | – | – | – | – | – | Rated Current0.18 A | – | – | – | |||
 | WL-SMCW SMT Mono-color Chip LED Waterclear, –, – | Downloads26 files RAY files
| Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWL-SMCW SMT Mono-color Chip LED Waterclear | – | – | – | – | – | Dominant Wavelength [typ.]625 nm | Emitting ColorRed | Peak Wavelength [typ.]630 nm | Luminous Intensity [typ.]250 mcd | Forward Voltage [typ.]2 V | Chip TechnologyAlInGaP | Viewing Angle Phi 0° [typ.]140 ° | – | – | – | Size0603 | Operating Temperature -40 °C up to +85 °C | – | – | – | – | Length1.6 mm | Width0.8 mm | Height0.7 mm | – | PackagingTape and Reel | – | – | – | – | MountSMT | – | – | – | – | – | – | – | – | – | |||
| WL-SMCW SMT Mono-color Chip LED Waterclear, –, – | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWL-SMCW SMT Mono-color Chip LED Waterclear | – | – | – | – | – | Dominant Wavelength [typ.]570 nm | Emitting ColorBright Green | Peak Wavelength [typ.]572 nm | Luminous Intensity [typ.]40 mcd | Forward Voltage [typ.]2 V | Chip TechnologyAlInGaP | Viewing Angle Phi 0° [typ.]140 ° | – | – | – | Size0603 | Operating Temperature -40 °C up to +85 °C | – | – | – | – | Length1.6 mm | Width0.8 mm | Height0.7 mm | – | PackagingTape and Reel | – | – | – | – | MountSMT | – | – | – | – | – | – | – | – | – | ||||
 | WCAP-ATUL Aluminum Electrolytic Capacitors, –, – | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWCAP-ATUL Aluminum Electrolytic Capacitors | – | – | – | – | – | – | – | – | – | – | – | – | Capacitance47 µF | Capacitance±20% | Rated Voltage100 V (DC) | – | – | – | Dissipation Factor9 % | – | – | Length12.5 mm | – | – | – | PackagingAmmopack | – | – | – | – | – | Endurance 7000 | Ripple Current400 mA | Leakage Current47 µA | Pitch5 mm | Diameter10 mm | – | – | – | – | ||||
| WCAP-CSGP MLCCs 50 V(DC), –, – | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWCAP-CSGP MLCCs 50 V(DC) | – | – | – | – | – | – | – | – | – | – | – | – | Capacitance1 pF | Capacitance±0.5pF | Rated Voltage50 V (DC) | Size0603 | Operating Temperature -55 °C up to +125 °C | Q-Factor420 % | – | Insulation Resistance10 GΩ | Ceramic TypeNP0 Class I | Length1.6 mm | Width0.8 mm | Height0.8 mm | Pad Dimension0.4 mm | Packaging7" Tape & Reel | – | – | – | – | – | – | – | – | – | – | – | – | – | – | |||||
| WCAP-CSGP MLCCs 16 V(DC), –, – | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWCAP-CSGP MLCCs 16 V(DC) | – | – | – | – | – | – | – | – | – | – | – | – | Capacitance100 nF | Capacitance±10% | Rated Voltage16 V (DC) | Size0603 | Operating Temperature -55 °C up to +125 °C | – | Dissipation Factor3.5 % | Insulation Resistance5 GΩ | Ceramic TypeX7R Class II | Length1.6 mm | Width0.8 mm | Height0.8 mm | Pad Dimension0.4 mm | Packaging7" Tape & Reel | – | – | – | – | – | – | – | – | – | – | – | – | – | – | |||||
| WCAP-CSGP MLCCs 10 V(DC), –, – | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWCAP-CSGP MLCCs 10 V(DC) | – | – | – | – | – | – | – | – | – | – | – | – | Capacitance4.7 µF | Capacitance±10% | Rated Voltage10 V (DC) | Size0805 | Operating Temperature -55 °C up to +125 °C | – | Dissipation Factor10 % | Insulation Resistance0.02 GΩ | Ceramic TypeX7R Class II | Length2 mm | Width1.25 mm | Height1.25 mm | Pad Dimension0.5 mm | Packaging7" Tape & Reel | – | – | – | – | – | – | – | – | – | – | – | – | – | – | |||||
| WCAP-CSGP MLCCs 100 V(DC), –, – | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWCAP-CSGP MLCCs 100 V(DC) | – | – | – | – | – | – | – | – | – | – | – | – | Capacitance100 nF | Capacitance±10% | Rated Voltage100 V (DC) | Size0805 | Operating Temperature -55 °C up to +125 °C | – | Dissipation Factor2.5 % | Insulation Resistance1 GΩ | Ceramic TypeX7R Class II | Length2 mm | Width1.25 mm | Height1.25 mm | Pad Dimension0.5 mm | Packaging7" Tape & Reel | – | – | – | – | – | – | – | – | – | – | – | – | – | – | |||||
| WCAP-CSGP MLCCs 100 V(DC), –, – | Status Activei| Production is active. Expected lifetime: >10 years. | Product seriesWCAP-CSGP MLCCs 100 V(DC) | – | – | – | – | – | – | – | – | – | – | – | – | Capacitance2.2 µF | Capacitance±10% | Rated Voltage100 V (DC) | Size1210 | Operating Temperature -55 °C up to +125 °C | – | Dissipation Factor5 % | Insulation Resistance0.05 GΩ | Ceramic TypeX7R Class II | Length3.2 mm | Width2.5 mm | Height2.5 mm | Pad Dimension0.75 mm | Packaging7" Tape & Reel | – | – | – | – | – | – | – | – | – | – | – | – | – | – |