TMAG5110-5111EVM

www.ti.com User’s Guide TMAG5110-5111EVM Evaluation Module ABSTRACT This user’s guide describes the characteristics, operation, and use of the TMAG5110 and TMAG5111 evaluation module (EVM). This EVM is designed to evaluate the performance of the TMAG5110/1 dual latch, 2D Hall effect sensors. Throughout this document, the terms evaluation board, evaluation module, and EVM are synonymous with the TMAG5110-5111EVM. This document includes a schematic, reference printed circuit board (PCB) layouts, and a complete bill of materials (BOM). SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 1 Table of Contents www.ti.com Table of Contents 1 Overview..................................................................................................................................................................................3 1.1 Kit Contents........................................................................................................................................................................3 1.2 Related Documentation From Texas Instruments.............................................................................................................. 4 2 Hardware................................................................................................................................................................................. 5 2.1 Features............................................................................................................................................................................. 5 3 Operation.................................................................................................................................................................................6 3.1 Quick Start Setup............................................................................................................................................................... 6 3.2 EVM Operation...................................................................................................................................................................7 4 Circuitry................................................................................................................................................................................. 11 4.1 Power Block......................................................................................................................................................................11 4.2 Hall Device Block..............................................................................................................................................................11 4.3 Quadrature Decoder Block............................................................................................................................................... 11 4.4 Up/Down Counter Block................................................................................................................................................... 11 4.5 LED Array Decoder Block................................................................................................................................................ 12 5 Schematics, PCB Layout, and Bill of Materials................................................................................................................. 13 5.1 Schematics.......................................................................................................................................................................13 5.2 PCB Layout...................................................................................................................................................................... 16 5.3 Bill of Materials.................................................................................................................................................................18 6 Revision History................................................................................................................................................................... 20 List of Figures Figure 3-1. EVM Overview...........................................................................................................................................................7 Figure 3-2. Magnetic Viewing Film...............................................................................................................................................8 Figure 3-3. EVM Magnet Placement Options.............................................................................................................................. 9 Figure 3-4. Position Module Standard Placement..................................................................................................................... 10 Figure 3-5. Position Module Rotated Placement....................................................................................................................... 10 Figure 5-1. TMAG5110 Schematic.............................................................................................................................................13 Figure 5-2. TMAG5111 Schematic.............................................................................................................................................14 Figure 5-3. Hardware Schematic............................................................................................................................................... 15 Figure 5-4. Top View.................................................................................................................................................................. 16 Figure 5-5. Top Layer.................................................................................................................................................................16 Figure 5-6. Bottom View............................................................................................................................................................ 17 Figure 5-7. Bottom Layer........................................................................................................................................................... 17 List of Tables Table 1-1. TMAG5110/1 Device Summary...................................................................................................................................3 Table 1-2. Kit Contents................................................................................................................................................................ 3 Table 1-3. Related Documentation.............................................................................................................................................. 4 Table 5-1. Bill of Materials..........................................................................................................................................................18 Trademarks All trademarks are the property of their respective owners. 2 TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated www.ti.com Overview 1 Overview The TMAG5110 and TMAG5111 are 2-dimensional, dual digital-latch Hall effect sensors designed for high-speed and high-temperature motor applications. The devices are optimized for applications leveraging rotating ring magnets. Using the alternating magnetic flux density of the ring magnet, each device presents independent digital outputs based on the state of each of the onboard Hall effect latches to enable external or internal speed and direction decoding. Alternating north and south magnetic poles are required to toggle the output of each Hall effect latch, and integrated hysteresis provides robust switching. The TMAG5110/1 are available in two sensitivity options, with BOPmax and BRPmin thresholds of ±1.4 mT and ±3 mT. Each sensitivity option is available with axes of sensitivity of XY, ZX, or ZY. These devices operate from a single 2.5-V to 38-V power supply, drawing a typical operating supply current of 6 mA across the operating temperature and power supply voltage ranges. These devices are currently available in a 5-pin SOT-23 package. This EVM uses a 5-V supply and both the TMAG5110B2 and TMAG5111B2, with sensitivity in the ZX axes and a maximum threshold of ±1.4 mT. Table 1-1 lists the axes of sensitivity and thresholds for each device. Table 1-1. TMAG5110/1 Device Summary Product Axes of Sensitivity BOPmax/BRPmin TMAG5110A2 XY ±1.4 mT TMAG5110B2 ZX ±1.4 mT TMAG5110C2 ZY ±1.4 mT TMAG5110A4 XY ±3 mT TMAG5110B4 ZX ±3 mT TMAG5110C4 ZY ±3 mT TMAG5111A2 XY ±1.4 mT TMAG5111B2 ZX ±1.4 mT TMAG5111C2 ZY ±1.4 mT TMAG5111A4 XY ±3 mT TMAG5111B4 ZX ±3 mT TMAG5111C4 ZY ±3 mT 1.1 Kit Contents Table 1-2 lists the contents of the TMAG5110-5111EVM kit. Contact the Texas Instruments Customer Support Center if any component is missing. Table 1-2. Kit Contents Item Quantity TMAG5110-5111EVM test board 1 10 pole ring magnet (packaged with PCB) 1 20 pole ring magnet (packaged with PCB) 1 Magnetic viewing film 1 Plastic module for position tests 1 USB cable 1 SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 3 Overview www.ti.com 1.2 Related Documentation From Texas Instruments This user's guide is available from the TI website under literature number SLYU050. Any letter appended to the literature number corresponds to the document revision that is current at the time of the writing of this document. Newer revisions are available from www.ti.com or the Texas Instruments' Literature Response Center at (800) 477-8924 or the Product Information Center at (972) 644-5580. When ordering, identify the document by both title and literature number. Table 1-3 lists documentation related to the TMAG5110-5111EVM. Click the links in Table 1-3 for further information on the TMAG5110/1.The device name links to the product web folder on www.ti.com. The literature number links to the document PDF. Table 1-3. Related Documentation 4 Document Description Document Literature Number TMAG5110 data sheet SBAS933 TMAG5110-Q1 data sheet SLYS029 TMAG5111 data sheet SBAS933 TMAG5111-Q1 data sheet SLYS029 CD74HC190 data sheet SCHS275 CD74HC42 data sheet SCHS133 TMUX1574 data sheet SCDS391 SN74LVC2G14 data sheet SCES200 SN74LVC1G86 data sheet SCES222 SN74LVC1G17 data sheet SCES351 TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated www.ti.com Hardware 2 Hardware The TMAG5110-5111EVM is an easy-to-use platform for evaluating the main features and performance of the TMAG5110 and TMAG5111. The EVM features two separate circuits showing different implementations of a rotary encoding application, with the TMAG5110 quadrature decoding circuit on the left and the TMAG5111 speed and direction circuit on the right. There are two different magnets and two magnet placement options to highlight the dual latch capabilities of pole pitch independence and magnet placement independence. There is also an extra plastic module in the EVM kit to help test and experiment with other magnet placement options. The TMAG5110-5111EVM is intended to provide basic functional evaluation of the devices. The layout is not intended to be a model for the target circuit, nor is it laid out for electromagnetic compatibility (EMC) testing. The TMAG5110-5111EVM consists of one PCB with one TMAG5110 and one TMAG5111. 2.1 Features • • • • • Includes both quadrature decoding and speed and direction implementations of a rotary encoding application Includes both a 10 pole and 20 pole ring magnet to show magnet pitch independence Each magnet can be placed in horizontal and vertical positions to show magnet placement independence Includes an additional position module which allows experimentation with further magnet placement options Conveniently powered from a common micro-USB connector SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 5 Operation www.ti.com 3 Operation 3.1 Quick Start Setup The following instructions describe how to set up and use the TMAG5110-5111EVM: 1. Power up the EVM using either of the following methods: a. USB power i. Insert the micro USB cable into the EVM onboard USB receptacle J1. ii. Plug the USB cable into any USB power source (for example: laptop, desktop, power bank, and so forth). b. Variable power supply i. Set the power supply voltage to 5 V. Do not turn on the power yet. ii. Connect the power supply V- terminal to the black GND test point on the EVM. iii. Connect the power supply V+ terminal to the red VCC test point on the EVM. iv. Turn on the power supply. 2. Place either the 10 pole or the 20 pole ring magnet in one of the two positions indicated in Figure 3-3. 3. Rotate the magnet in either direction and observe the various LED indicators. 6 TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated www.ti.com Operation 3.2 EVM Operation The TMAG5110-5111EVM features two functionally independent circuits, one for the TMAG5110 and one for the TMAG5111. Figure 3-1 shows an overview of the PCB layout. The circuit on the left features the TMAG5110 quadrature output device, and the circuit on the right features the TMAG5111 speed and direction output device. Section 4 goes over the different operational section blocks of the EVM and their functions and components. For TMAG5110 each output is a logic high or low based on the latch state of the individual internal Hall sensors. So, for this case, OUT1 is for the Z-axis sensor and OUT2 is for the Xaxis sensor. For TMAG5111, as the magnet is rotated, OUT1 will indicated speed and OUT2 will indicate direction. Direction can be determined by observing whether this output is high or low, and Speed is indicated by the rate of output transitions. TMAG5110 Side TMAG5111 Side Power Block Hall Device Block Quadrature Decoder Block Up/Down Counter Block LED Array Decoder Block Extra Magnet Storage Slot Figure 3-1. EVM Overview SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 7 Operation www.ti.com Figure 3-2 shows how the magnetic viewing film included with the EVM kit can be used to tell the difference between the 10 pole and 20 pole magnets. In Figure 3-2, the 10 pole magnet is on the left and the 20 pole magnet is on the right. Figure 3-2. Magnetic Viewing Film The EVM features two convenient magnet placement orientation options for rotary encoding, shown in Figure 3-3. The magnets can easily be rotated while in these positions. The two LED arrays at the bottom (D1–D10 and D11-D20) will each have one LED lit up either green or blue that will move either right or left with the rotation of the magnet. The output LEDs near the sensors (D21-D24) show the state of the individual output pins of each device. 8 TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated www.ti.com Operation Above PCB Through PCB Figure 3-3. EVM Magnet Placement Options Additional magnet placement options are possible when using the rotating position module included with this EVM kit, shown in Figure 3-4 and Figure 3-5. Note that this fixture swivels from side to side to show the design and alignment flexibility of the TMAG5110 and TMAG5111. To attach the module, insert the rod into the center hole of the EVM, and tighten the nut while holding the module in the desired position. To swivel the fixture, loosen the nut slightly. SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 9 Operation www.ti.com Figure 3-4. Position Module Standard Placement Figure 3-5. Position Module Rotated Placement The included magnets should not be placed near stronger magnets, or the magnetic pole configuration may get altered. It is best practice not to touch the multipole ring magnets to any other magnet. 10 TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated www.ti.com Circuitry 4 Circuitry This section summarizes the EVM subsystems and their components. See Figure 3-1 for the location of each subsystem on the PCB. 4.1 Power Block This block is used to provide power to the PCB. J1 is a micro-USB connector used to conveniently power the EVM, but a supply may also be used with any of the GND or VCC test points (TP1-TP4). Note that there are also GND and VCC test points at the bottom of the PCB for convenience. C9 is a bypass capacitor used to help mitigate noise when powering the device from the micro-USB connector. 4.2 Hall Device Block This block has the sensing devices, with any needed components, test points and LED indicators. The magnets are placed in this section to interact with the Hall sensors. 4.2.1 TMAG5110 Side U1 is the TMAG5110 which is a dual Hall latch with a quadrature output. C1 is a bypass capacitor that is placed near the sensor to help mitigate power supply noise and provide current quickly to the device when needed. R1 and R2 are pull up resistors since the device output is open drain. Note that a different resistance can be used for these resistors, based on the system speed and power requirements. The TMAG5110 outputs can be directly monitored or used with the included test points TP5 and TP6 (for OUT2 and OUT1, respectively). D21 and D22 show the logic state of each output. R3 and R4 are current limiting resistors to control the brightness of the LEDs. 4.2.2 TMAG5111 Side U11, C11, R27, R28, TP7, TP8, D23, D24, R29, and R30 perform the same functions as the respective components from the TMAG5110, except that U11 is the TMAG5111 which is a dual Hall latch with speed and direction output. 4.3 Quadrature Decoder Block This block is used to process data to prepare the signal for the up/down counter block. 4.3.1 TMAG5110 Side U2 is the LS7184N-S, which is a quadrature encoder to counter interface chip. This chip converts the outputs of the TMAG5110 to use directly with an up/down counter by outputting a speed pulse and a direction. Pin 6 is left floating to put the device in x4 mode, which gives a speed pulse for both rising and falling edges of each output from the TMAG5110. R5 is the RBIAS resistor which is used to adjust the output clock pulse width TOW. In this case, 470 kΩ was used to set approximately 5.5-µs TOW. C2 is a bypass capacitor that is placed near the IC to help mitigate power supply noise and provide current quickly to the device when needed. 4.3.2 TMAG5111 Side Quadrature decoding is not needed for the TMAG5111. 4.4 Up/Down Counter Block This block is used to convert direction and count data to a binary coded decimal (BCD) number from 0–9. 4.4.1 TMAG5110 Side U3 is the CD74HC190, which is a BCD up/down counter. This counter only counts on the rising edge of the pulse sent from the quadrature decoder (U2). The pre-settable pins are set to GND to give an initial value of 0. C3 is a bypass capacitor that is placed near the IC to help mitigate power supply noise and provide current quickly to the device when needed. C8 and R6 create an RC filter which are used with a single Schmitt-Trigger buffer (U8, SN74LVC1G17) to delay the LOAD signal for the up/down counter (U3). This is done so that the initial value of 0 is loaded to the counter after the device has been powered on. SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 11 Circuitry www.ti.com 4.4.2 TMAG5111 Side U13, C13, U12, C12, and R32 perform the same functions as the respective components from the TMAG5110 side but for the TMAG5111 signal path. R31 and C10 create an RC filter which are combined with a dual Schmitt-Trigger buffer (U9, SN74LVC2G14) and a single 2-input Exclusive-OR gate (U10, SN74LVC1G86) to create an edge detection circuit. The edge detection circuit is used to convert the rising edge up/down counter (U13) to a dual edge up down counter to count every clock transition from the TMAG5111 (U11). 4.5 LED Array Decoder Block This block converts the BCD number of 0–9 to a position in an LED array that lights up in either green or blue based on the direction of magnet rotation. 4.5.1 TMAG5110 Side U4 is the CD74HC42, which is a BCD-to-decimal decoder. This device takes the BCD number and activates one of 10 outputs accordingly (active low). C4 is a bypass capacitor that is placed near the IC to help mitigate power supply noise and provide current quickly to the device when needed. U5–U7 are each a TMUX1574, which are 2:1 (SPDT) 4-channel, powered-off protection switches that are used to split each output from U4 into two outputs. The direction line from U2 is used as an input to the switches to determine which of the two outputs should be active. C5–C7 are bypass capacitors that are placed near the ICs to help mitigate power supply noise and provide current quickly to the devices when needed. Each output pair from U5–U7 connects to an individual RGB LED (in D1–D10), with one output going into the blue LED and the other output into the green LED. Because the switches U5–U7 are toggled from the direction line, the LEDs will show green or blue based on the direction the magnet is rotating. The specific LED lit up will be based on the BCD number 0–9 from the up/down counter (U3). R7–R27 are used as current-limiting resistors for the LEDs. 4.5.2 TMAG5111 Side U14, C4, U15–U17, C16–C17, D11–D20, R33–R52 perform the same functions as the respective components from the TMAG5110 side but for the TMAG5111 signal path, except that the direction line comes directly from the TMAG5111. 12 TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated www.ti.com Schematics, PCB Layout, and Bill of Materials 5 Schematics, PCB Layout, and Bill of Materials Note Board layouts are not to scale. These figures are intended to show how the board is laid out. The figures are not intended to be used for manufacturing EVM PCBs. 5.1 Schematics Figure 5-1 to Figure 5-3 show the schematic of the EVM. Figure 5-1 shows the circuitry for the TMAG5110 as well as the power connector and power test points. Figure 5-2 shows the circuitry for the TMAG5111. Figure 5-3 shows the mechanical components included with the EVM. D1 R 10 8 6 4 GND DX4R205JJAR1800 VBUS 1 D+ 3 ID 4 GND 5 11 9 7 D- 2 VCC TP3 C9 0.1uF G R7 2 R8 TP4 VCC B D2 1 10.0k GND VCC D1 S1A S1B 16 1 5 D2 S2A S2B 3 4 7 D3 S3A S3B 9 8 S4A S4B 12 11 SEL 15 EN 13 6 GND VCC 14 2 10 D4 GND D3 C5 VDD GND R11 2 VCC R12 B 1 10.0k D4 EAST1616RGBA3 10.0k 1 3 R1 3.30k U1 VDD NC OUT1 OUT2 GND 4 5 2 OUT2 R2 3.30k TP6 VCC OUT1 VCC R5 470k GND D22 A UP/DN 7 5 B CLK 8 1 RBIAS MODE 6 2 VDD (+V) VSS (-V) 3 LS7184N-S C2 0.1uF VCC DIR_5110 GND GND R6 A1 R3 10.0k C8 U8A 5600pF 3 15 14 A1 13 A2 B QB 2 10 C QC 6 D 14 CLK 4 CTEN GND 5 B2 11 VCC QA 1 9 10.0k GND A GND 4 U4 GND VCC 15 U2 TMAG5110B1AQDBVR GND 0.1uF GND TP5 16 QD RCO MAX/MIN 7 12 A0 A3 GND 13 CD74HC42M 12 1 2 3 4 5 6 7 9 10 11 2 8 GND C6 9 8 10 D4 S4A S4B 12 11 GND 10.0k R16 0.1uF GND 15 EN 13 D6 G 2 B 1 10.0k R EAST1616RGBA3 4 DIR_5110 R19 G 2 10.0k R20 VCC 3 B 1 10.0k D8 EAST1616RGBA3 VCC GND VCC B1 U7 GND GND VDD 2 D1 S1A S1B 16 1 5 D2 S2A S2B 3 4 D3 S3A S3B 9 8 D4 S4A S4B 12 11 SEL 15 EN 13 7 10 6 GND GND TMUX1574RSVR R 4 C7 14 VCC 3 10.0k VCC U8B R 4 EAST1616RGBA3 GND TMUX1574RSVR GND B 1 10.0k D7 SEL EAST1616RGBA3 VCC 3 R18 S3A S3B 8 2 R17 S2A S2B GND A2 GND R15 16 1 D3 6 LOAD 10.0k R G 14 D2 1 4 S1A S1B 7 VCC 3 B R14 VDD 3 4 2 10.0k DIR_5110 D5 5 GND D/U CD74HC190PWR D1 G R13 U6 Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9 R 4 U3 16 C3 R4 EAST1616RGBA3 VCC 3 10.0k VCC 0.1uF D21 10.0k R G C4 VCC 1 4 0.1uF GND TMUX1574RSVR VCC 3 B R10 GND C1 0.1uF 2 10.0k U5 VCC G R9 GND TP1 GND R 4 EAST1616RGBA3 GND TP2 VCC 3 10.0k VCC G R21 0.1uF 2 VCC 3 10.0k GND B R22 1 10.0k EAST1616RGBA3 D9 R 4 R23 DIR_5110 G 2 10.0k R24 VCC 3 B 1 10.0k GND D10 EAST1616RGBA3 R 4 R25 G 2 10.0k R26 VCC 3 B 1 10.0k EAST1616RGBA3 Figure 5-1. TMAG5110 Schematic SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 13 Schematics, PCB Layout, and Bill of Materials www.ti.com D11 R 4 R33 G 2 R34 VCC 3 10.0k B D12 1 10.0k G R35 2 B R36 VCC 14 D1 S1A S1B 16 1 5 D2 S2A S2B 3 4 7 D3 S3A S3B 9 8 D4 S4A S4B 12 11 SEL 15 EN 13 6 GND VCC VDD 2 10 GND D13 C15 GND R37 2 R38 A1 R30 SPD 1 VDD NC OUT1 OUT2 4 5 GND 2 TMAG5111B1AQDBVR GND 0.1uF B 1 10.0k D14 EAST1616RGBA3 GND 16 VCC 15 A R28 3.30k VCC R31 C1 C2 10.0k GND TP8 GND GND D23 DIR VCC R29 R32 A1 10.0k 10.0k GND C12 U12A 5600pF 15 A0 GND QA 3 1 B QB 2 14 A1 C QC 6 13 A2 9 D QD 7 12 A3 B1 U10A C10 U9B 5600pF VCC 10 A1 C2 U14 16 14 CLK 4 CTEN GND 5 B2 11 RCO 13 MAX/MIN 12 GND CD74HC42M 1 2 3 4 5 6 7 9 10 11 2 5 8 S2A S2B 3 4 D3 S3A S3B 9 8 D4 S4A S4B 12 11 SEL 15 EN 13 GND 8 GND EAST1616RGBA3 R41 G 2 R42 0.1uF GND VCC 3 10.0k B D16 1 10.0k G R43 2 B R44 1 10.0k R EAST1616RGBA3 4 DIR_5111 R45 G 2 VCC 3 10.0k B 1 10.0k D18 EAST1616RGBA3 VCC B2 VCC GND B1 GND C1 U17 GND U9C A2 VCC VDD 14 D1 S1A S1B 16 1 5 D2 S2A S2B 3 4 7 D3 S3A S3B 9 8 D4 S4A S4B 12 11 SEL 15 EN 13 U10B A2 VCC GND B1 U12B GND 10 6 GND GND TMUX1574RSVR R 4 C17 2 VCC 3 10.0k GND VCC R 4 EAST1616RGBA3 D17 TMUX1574RSVR GND 1 10.0k R 4 R46 GND CD74HC190PWR 16 1 7 6 GND D2 S1A S1B 10 D/U LOAD D1 VCC 3 B R40 C16 14 2 10.0k GND VDD G R39 DIR_5111 U16 Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9 R 4 U13 GND U9A DIR_5111 C11 0.1uF 3 R27 3.30k U11 10.0k A2 VCC VCC C13 VCC 3 10.0k VCC 0.1uF D24 TP7 EAST1616RGBA3 G C14 VCC 1 10.0k R 4 0.1uF D15 TMUX1574RSVR VCC 3 10.0k U15 R 4 EAST1616RGBA3 G R47 0.1uF 2 VCC 3 10.0k GND B R48 1 10.0k EAST1616RGBA3 D19 R 4 R49 DIR_5111 G 2 10.0k R50 VCC 3 B 1 10.0k GND D20 EAST1616RGBA3 R 4 R51 G 2 10.0k R52 VCC 3 B 1 10.0k EAST1616RGBA3 Figure 5-2. TMAG5111 Schematic 14 TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated www.ti.com Schematics, PCB Layout, and Bill of Materials H1 H2 1 H3 1 NY PMS 440 0025 PH H4 1 NY PMS 440 0025 PH 1 NY PMS 440 0025 PH NY PMS 440 0025 PH H5 H6 H7 H8 1902C 1902C 1902C 1902C MAG1 MECH G16-A-079-75-10 H9 MECH 92942A714 H11 MECH BalanceBoard H13 MECH 2053-256-N MAG2 MECH G16-A-079-75-20 H10 MECH 92942A714 H12 MECH Pos itionModule H14 MECH MV43 FID1 FID2 H15 MECH 6612041 FID3 PCB Number: SENS053 PCB Rev: A P CB LOGO Texas Instruments CE Mark P CB LOGO P CB LOGO FCC dis claimer WEEE logo ZZ1 Assembly Note These assemblie s are ESD sens itive, ESD precautions shall be observed. ZZ2 Assembly Note These assemblie s must be clean and free from flux and all contaminants. Use of no clean flux is not acceptable. ZZ3 Assembly Note These assemblie s must comply with workmanship standards IPC-A-610 Class 2, unles s otherwis e specified. Figure 5-3. Hardware Schematic SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 15 Schematics, PCB Layout, and Bill of Materials www.ti.com 5.2 PCB Layout Figure 5-4 through Figure 5-7 illustrate the PCB layers of the EVM. Figure 5-5. Top Layer Figure 5-4. Top View 16 TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated www.ti.com Schematics, PCB Layout, and Bill of Materials Figure 5-6. Bottom View Figure 5-7. Bottom Layer SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 17 Schematics, PCB Layout, and Bill of Materials www.ti.com 5.3 Bill of Materials Table 5-1 provides the parts list for the EVM. Table 5-1. Bill of Materials Designator Quantity !PCB1 1 C1, C2, C3, C4, C5, C6, C7, C9, C11, C13, C14, C15, C16, C17 14 0.1uF C8, C10, C12 3 5600pF D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D12, D13, D14, D15, D16, D17, D18, D19, D20 20 D21, D22, D23, D24 4 H1, H2, H3, H4 18 Value Description Package Reference Printed Circuit Board Part Number Manufacturer SENS053 Any CAP, CERM, 0.1 uF, 25 V, ±10%, X7R, 0603 0603 885012206071 Wurth Elektronik CAP, CERM, 5600 pF, 25 V, ±10%, X7R, 0402 0402 CL05B562KA5NNNC Samsung ElectroMechanics RGB LED, RGB, SMD 1.6x1.6mm EAST1616RGBA3 Everlight White LED, White, SMD 0805 VAOL-S8WR4 Visual Communications Company, LLC 4 Machine Screw, Round, #4-40 x 1/4, Nylon, Philips panhead Screw NY PMS 440 0025 PH B&F Fastener Supply H5, H6, H7, H8 4 Standoff, Hex, 0.5"L #4-40 Nylon Standoff 1902C Keystone H9, H10 2 Nylon Pan Head Slotted Screws, 2-56 Thread, 1" Long, Black 92942A714 McMASTER-CARR H11 1 Plastic fixture to stabalize magnets BalanceBoard Stratasys H12 1 Kitting Item: Plastic module to test magnet positions PositionModule Stratasys H13 1 Kitting Item: Hex Standoff Threaded #2-56 Nylon 0.250" (6.35mm) 1/4" 2053-256-N RAF Electronic Hardware H14 1 Kitting Item: Magnetic Viewing Film. Purchase as needed MV43 K&J Magnetics H15 1 Kitting Item: 3025010-03; Cable, USB A MALE to Micro B MALE 3'; CDDS 6612041 6612041 Qualtek J1 1 Connector, Receptacle, Micro-USB Type AB, R/A, Bottom Mount SMT DX4R205JJAR1800 JAE Electronics MAG1 1 Multipole Ring Magnet, 10 Poles, Neobond 30M, 2mm Bore Size, Molded G16-A-079-75-10 Phoenix America MAG2 1 Multipole Ring Magnet, 20 Poles, Neobond 30M, 2mm Bore Size, Molded G16-A-079-75-20 Phoenix America Connector, USB Micro AB R1, R2, R27, R28 4 3.30k RES, 3.30 k, 1%, 0.1 W, AEC-Q200 Grade 0, 0402 0402 ERJ-2RKF3301X Panasonic R3, R4, R6, R7, R8, R9, R10, R11, R12, R13, R14, R15, R16, R17, R18, R19, R20, R21, R22, R23, R24, R25, R26, R29, R30, R31, R32, R33, R34, R35, R36, R37, R38, R39, R40, R41, R42, R43, R44, R45, R46, R47, R48, R49, R50, R51, R52 47 10.0k RES, 10.0 k, 1%, 0.063 W, AEC-Q200 Grade 0, 0402 0402 RMCF0402FT10K0 Stackpole Electronics Inc 470k R5 1 RES, 470 k, 5%, 0.1 W, AEC-Q200 Grade 0, 0603 0603 CRCW0603470KJNEA Vishay-Dale TP1, TP4, TP5, TP6, TP7, TP8 6 Test Point, Miniature, SMT Testpoint_Keystone_Miniature 5015 Keystone TP2 1 Test Point, Compact, Black, TH Black Compact Testpoint 5006 Keystone TP3 1 Test Point, Compact, Red, TH Red Compact Testpoint 5005 Keystone TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated www.ti.com Schematics, PCB Layout, and Bill of Materials Table 5-1. Bill of Materials (continued) Designator Quantity Value U1 1 TMAG5110, DBV0005A (SOT-23-5) Description DBV0005A Package Reference TMAG5110B1AQDBVR Texas Instruments U2 1 Quadrature Clock Converter, SOIC-8 SOIC-8 LS7184N-S LSI Computer Systems, Inc. U3, U13 2 High Speed CMOS Logic Presettable Synchronous PW0016A BCD Decade Up/Down Counter, PW0016A (TSSOP-16) CD74HC190PWR Texas Instruments U4, U14 2 High Speed CMOS Logic 1-of-10 BCD to Decimal Decoder, D0016A (SOIC-16) D0016A CD74HC42M Texas Instruments U5, U6, U7, U15, U16, U17 6 Low-capacitance, 2:1 (SPDT) 4-channel, poweredoff protection switch with 1.8 V logic, RSV0016A (UQFN-16) RSV0016A TMUX1574RSVR Texas Instruments U8, U12 2 Single Schmitt-Trigger Buffer, YZV0004ADAD, LARGE T&R YZV0004ADAD SN74LVC1G17YZVR Texas Instruments U9 1 Dual Schmitt-Trigger Inverter, YZP0006ADAD, LARGE T&R YZP0006ADAD SN74LVC2G14YZPR Texas Instruments U10 1 Single 2-Input Exclusive-OR Gate, YZP0005AEAE, LARGE T&R YZP0005AEAE SN74LVC1G86YZPR Texas Instruments U11 1 TMAG5111, DBV0005A (SOT-23-5) DBV0005A TMAG5111B1AQDBVR Texas Instruments FID1, FID2, FID3 0 Fiducial mark. There is nothing to buy or mount. N/A N/A N/A SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Part Number Manufacturer TMAG5110-5111EVM Evaluation Module Copyright © 2021 Texas Instruments Incorporated 19 Revision History www.ti.com 6 Revision History NOTE: Page numbers for previous revisions may differ from page numbers in the current version. Changes from Revision A (April 2021) to Revision B (July 2021) Page • Changed EVM board photo to high-resolution graphic.......................................................................................1 • Changed PCB images to match online data sheet........................................................................................... 16 Changes from Revision * (June 2020) to Revision A (April 2021) Page • Updated the numbering format for tables, figures, and cross-references throughout the document..................1 • Updated at product release to align to data sheet parameters...........................................................................1 20 TMAG5110-5111EVM Evaluation Module SLYU050B – JUNE 2020 – REVISED JULY 2021 Submit Document Feedback Copyright © 2021 Texas Instruments Incorporated IMPORTANT NOTICE AND DISCLAIMER TI PROVIDES TECHNICAL AND RELIABILITY DATA (INCLUDING DATA SHEETS), DESIGN RESOURCES (INCLUDING REFERENCE DESIGNS), APPLICATION OR OTHER DESIGN ADVICE, WEB TOOLS, SAFETY INFORMATION, AND OTHER RESOURCES “AS IS” AND WITH ALL FAULTS, AND DISCLAIMS ALL WARRANTIES, EXPRESS AND IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT OF THIRD PARTY INTELLECTUAL PROPERTY RIGHTS. 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