EVAL-AD5767SD2Z User Guide UG-1070 One Technology Way * P.O. Box 9106 * Norwood, MA 02062-9106, U.S.A. * Tel: 781.329.4700 * Fax: 781.461.3113 * www.analog.com Evaluating the AD5767 16-Channel, 12-Bit Serial Input, Voltage Output DAC FEATURES port of a Windows(R)-based PC using the AD5767 evaluation software. Full featured evaluation board for the AD5767 with the ADP5071 power solution PC control in conjunction with the Analog Devices, Inc., EVAL-SDP-CB1Z system demonstration platform (SDP) Power solution generated from a single 3.3 V supply PC software for control using analysis/control/evaluation (ACE) software The AD5767 is a 16-channel, 12-bit voltage output denseDAC(R). The DAC generates output ranges from a 2.5 V reference. The AD5767 also integrates output buffers allowing the device to source or sink up to 20 mA. The range is software selectable, and any channel can be routed to the monitor pin for external monitoring. The integration of the reference and output buffers allows an easy to use universal solution. GENERAL DESCRIPTION The device requires four power supplies. AVDD and AVSS are the positive and negative high voltage power supplies, AVCC is the analog supply for the low voltage DAC circuitry, and a VLOGIC supply pin sets the logic levels for the digital interface pins. The EVAL-AD5767SD2Z is a fully featured evaluation board that allows the user to easily evaluate all the features of the AD5767 16-channel, 12-bit, voltage output digital-to-analog converter (DAC). The ACE software provides an intuitive graphic user interface (GUI), allowing all of the AD5767 modes of operation to be configured over the synchronous serial port (SPORT) interface. The ACE software also has plugin modules for many other Analog Devices evaluation boards and Circuits from the Lab(R) (CFTL) demo boards. This board also integrates a power solution using the ADP5071 switching regulator to generate a bipolar supply of +8 V and -22 V from a +3.3 V input, allowing a DAC voltage output range of -20 V to +6 V. Alternatively, supplying the DAC with a linear power supply via the on-board connector (J9) achieves all ranges. Complete specifications for the AD5767 are available in the AD5767 data sheet, which must be consulted in conjunction with this user guide when using this evaluation board. The AD5767 can be controlled using the on-board connector (J10) or the EVAL-SDP-CB1Z SDP board (via J1). The SDP allows the evaluation board to be controlled through the USB 15163-001 EVALUATION BOARD PHOTOGRAPH Figure 1. PLEASE SEE THE LAST PAGE FOR AN IMPORTANT WARNING AND LEGAL TERMS AND CONDITIONS. Rev. 0 | Page 1 of 17 UG-1070 EVAL-AD5767SD2Z User Guide TABLE OF CONTENTS Features .............................................................................................. 1 ADP5071 Switching Regulator ....................................................5 General Description ......................................................................... 1 Evaluation Board Software ...............................................................7 Evaluation Board Photograph ......................................................... 1 ACE Software Installation ............................................................7 Revision History ............................................................................... 2 ACE Software Operation ..............................................................7 Evaluation Board Hardware ............................................................ 3 Evaluation Board Schematics and Artwork ................................ 11 Power Supplies/Default Link Options ....................................... 3 Ordering Information .................................................................... 16 On-Board Connectors ................................................................. 5 Bill of Materials ........................................................................... 16 REVISION HISTORY 1/2017--Revision 0: Initial Version Rev. 0 | Page 2 of 17 EVAL-AD5767SD2Z User Guide UG-1070 EVALUATION BOARD HARDWARE The EVAL-AD5767SD2Z evaluation board can be powered using the on-board ADP5071, which is supplied with a 3.3 V supply via the J12 connector. Alternatively, the J9 connector can provide power to the board instead of the ADP5071 and is intended for use with well regulated bench supplies. See Figure 2 for a functional block diagram. POWER SUPPLIES/DEFAULT LINK OPTIONS Table 1. Quick Start Jumper Configurations for Both ADP5071 and Bench Supply Link No. LK1 LK2 LK3 LK4 LK5 LK7 LK8 LK11 LK12 ADP5071 A A A B B A Inserted Removed Removed Bench Supply A A A A A A Removed Removed Removed With either option, first set the link options on the evaluation board for the required operating setup before supplying the board. Each supply is decoupled to the relevant ground plane with 10 F and 0.1 F capacitors. Each device supply pin is again decoupled with a 10 F and 0.1 F capacitor pair to the relevant ground plane. The analog and digital planes are connected at one location close to the DAC. To avoid ground loop problems, do not connect AGND and DGND elsewhere in the system. J9 +8V B A J12 +3.3V LK4 ADP5071 -22V PGND B A EXT_AV DD AGND EXT_AV SS LK5 A LK3 B +3.3V J11 AVCC AVSS AVDD EXT_AVCC B LK2 A AGND AD5767 VLOGIC 15163-002 DGND VLOGIC J13 Figure 2. Powering the EVAL-AD5767 SDZ Evaluation Board Table 2. Quick Start Board Supply ADP5071 Bench Supply Compatible Output Voltage Ranges (V) -20 to 0 -16 to 0 -10 to 0 -10 to +6 -5 to +5 -20 to 0 -16 to +0 -10 to +0 -10 to +6 -12 to +14 -16 to +10 -5 to +5 -10 to +10 Power Supplies Required AVSS (J9) Maximum (V) AVDD (J9) Minimum Not required Not required Not required Not required Not required Not required Not required Not required Not required Not required -22 2.97 -18 2.97 -12 2.97 -12 8 -14 16 -18 12 -7 7 -12 12 Rev. 0 | Page 3 of 17 J12 Nominal (V) 3.3 3.3 3.3 3.3 3.3 3.3 3.3 3.3 3.3 3.3 3.3 3.3 3.3 UG-1070 EVAL-AD5767SD2Z User Guide Power Solution Option (ADP5071) The EVAL-AD5767SD2Z board is populated with an ADP5071 switching regulator. This regulator generates +8 V and -22 V supplies from a single +3.3 V supply. The circuit was designed using the Analog Devices ADIsimPower toolset, which selects the components and generates the schematic and bill of materials, and displays the performance specifications. Visit the ADP5071 product page at www.analog.com/ADP5071 to download the design tools. The ADP5071 requires 3.3 V for correct operation. Following the jumper configuration in Table 1, tie AVCC, VLOGIC, and the ADP5071 supplies together to operate from a single 3.3 V supply. Alternatively, the AVCC header (J11) and VLOGIC header (J13) can be powered with separate supplies by selecting Position B on LK3 and LK2, respectively. Refer to Table 3 for full link options. The -12 V to +14 V, -16 V to +10 V, or -10 V to +10 V output voltage ranges are not available with the ADP5071 default configuration because a minimum of 2 V headroom is required. Refer to the Filtered 3.3 V Supply section for further information, or supply the board using a bench supply. Bench Power Supply Option The evaluation board can be powered using a bench supply to access all output voltage ranges of the AD5767. A headroom and footroom of at least 2 V is required. Refer to Table 2 for the supply requirements. It is important that the voltage across AVDD to AVSS does not exceed the absolute maximum rating of 34 V. Otherwise, device reliability may be affected. Following the jumper configuration in Table 2, tie AVCC and VLOGIC together to operate from the same 3.3 V supply, or AVCC (via J11) and VLOGIC (via J13) can be powered with separate supplies by selecting Position B on LK3 and LK2, respectively. Refer to Table 3 for full link options. Refer to Table 3 for full link options. Table 3. Link Options Link No. LK1 LK2 LK3 LK4 LK5 LK6 LK7 LK8 LK9 LK10 LK11 LK12 Description Selects the power supply for the ADR4525 reference; requires a minimum of 3 V for correct operation Position A: supplied by the 3.3 V supply (J12) Position B: supplied by the AVCC header (J11) Selects the power supply for the DAC VLOGIC pin; requires 1.7 V to 5.5 V for correct operation Position A: supplied by the 3.3 V supply (J12) Position B: supplied by the VLOGIC header (J13) Selects the power supply for the DAC AVCC pin; requires 2.97 V to 5.5 V for correct operation Position A: supplied by the 3.3 V supply (J12) Position B: supplied by the AVCC header (J11) Selects the power supply for the DAC AVDD pin; ensure that the voltage between AVDD and AVSS does not exceed 34 V Position A: supplied by the AVDD header (J9) Position B: supplied by the ADP5071 power solution Selects the power supply for DAC AVSS pin; ensure that the voltage between AVDD and AVSS does not exceed 34 V Position A: supplied by AVSS header (J9) Position B: supplied by the ADP5071 power solution Selects the start-up sequence of the ADP5071 outputs Position A: positive and negative output rails are sequenced based on the state of the EN1 and EN2 pins Position B: positive and negative output rails power up simultaneously when EN2 is high No link inserted: manual enable mode Selects the voltage reference source Position A: selects the ADR4525 2.5 V reference Position B: selects an external reference source that can applied at the EXT_VREF SMB connector Insert link to connect the ADP5071 to the 3.3 V supply header (J12) Selects the switching frequency of ADP5071; this link is replaced with a 0 resistor to Position A Position A: 1.2 MHz switching frequency (default) Position B: 2.4 MHz switching frequency Selects the slew rate of the ADP5071 output; this link is replaced with a 0 resistor to Position A Position A: slowest slew rate (best noise performance) Position B: normal slew rate Insert link to bypass the LC filter on the ADP5071 positive output Insert link to bypass the LC filter on the ADP5071 negative output Rev. 0 | Page 4 of 17 EVAL-AD5767SD2Z User Guide UG-1070 PMOD Connector (J10) Pin Configuration and Descriptions 2 3 4 5 6 7 8 9 10 11 12 Filtering the ADP5071 Outputs The EVAL-AD5767SD2Z board has an LC filter fitted on the ADP5071 positive and negative outputs. The filter can be bypassed by inserting LK11 and LK12. 15163-003 1 ADP5071 SWITCHING REGULATOR Figure 3. Jumper J10 Pin Configuration Figure 4 shows the output frequency spectrum of the AD5767 powered by the filtered ADP5071 supply. The dotted red line represents 10% of 1 LSB using the -10 V to +6 V range. For comparison, Figure 5 shows the output frequency spectrum of the AD5767 powered by a bench power supply. Table 4. Connector J10 Pin Descriptions Description SYNC SDIN/MOSI SDO/MISO SCLK DGND VLOGIC NC1 RESET NC1 NC1 DGND VLOGIC 20 VOUT x AT CHANNEL 1 = -10V VOUT x AT CHANNEL 1 = +6V 10 0 SIGNAL POWER (dBmV) Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 -10 -20 -30 -40 -50 -60 NC means no connection. -70 100k ON-BOARD CONNECTORS There are eight connectors on the EVAL-AD5767SD2Z, as shown in Figure 3. For the external supply pins, refer to the Power Supplies/Default Link Options section because AVCC and VLOGIC can be powered using J12, depending on the jumper configuration. Connector J1 J2 J3 J9 J10 J11 J12 J13 Function Connection for the EVAL-SDP-CB1Z board Header pins for VOUT0 to VOUT7 and AGND Header pins for VOUT8 to VOUT15 and AGND Supplies AVDD and AVSS externally Peripheral module (PMOD) connection pins Supplies AVCC pin externally 3.3 V supply for AVCC, VLOGIC, and the ADP5071 Supplies VLOGIC pin externally 10M Figure 4. Output of AD5767 with ADP5071 (LC Filtered) -40 VOUT x AT CHANNEL 1 = -10V VOUT x AT CHANNEL 1 = +6V -50 SIGNAL POWER (dBmV) Table 5. On-Board Connectors 1M FREQUENCY (Hz) -60 -70 -80 -90 -100 -110 -120 100k 1M FREQUENCY (Hz) Figure 5. Output of AD5767 with Bench Power Supply Rev. 0 | Page 5 of 17 10M 15163-005 1 UG-1070 EVAL-AD5767SD2Z User Guide Filtered 3.3 V Supply Changing the ADP5071 Output Voltages The EVAL-AD5767SD2Z board contains a filter on J11 to allow users to filter the AD5767 AVCC rail. Alternatively, users can bypass the filter by using J12. Powering the board via the J12 header allows users to evaluate the board performance with their own supply. See Figure 6 for the functional block diagram. By default, the ADP5071 output voltages are +8 V and -22 V. To provide enough headroom to supply the -12 V to +14 V, -16 V to +10 V, and -10 V to +10 V ranges, the feedback resistors must be changed. These are R26 and R31 for the positive output, and R28 and R30 for the negative output. Based on the output supplies required and load current requirements, the Analog Devices ADIsimPower toolset selects the recommended feedback resistors for the application. ADIsimPower is available on the ADP5071 product page at www.analog.com/ADP5071. When enabled with LK8, the ADP5071 can feed noise back onto the 3.3 V rail. Users can attenuate this noise by connecting J12 and J11 externally. It is important that the voltage across AVDD to AVSS does not exceed the absolute maximum rating of 34 V. Otherwise, device reliability may be affected. J12 +3.3V LK8 ADP5071 UNFILTERED +3.3V A LK3 B AV CC AD5767 J11 FILTERED +3.3V 15163-006 EXT_AVCC Figure 6. AVCC Selection Rev. 0 | Page 6 of 17 EVAL-AD5767SD2Z User Guide UG-1070 EVALUATION BOARD SOFTWARE ACE SOFTWARE INSTALLATION ACE SOFTWARE OPERATION The ACE software enables configuration of the AD5767 over a USB port. This section introduces the key features of the program. To operate the ACE software, follow these steps: To download the ACE software and obtain detailed documentation on the platform, visit www.analog.com/ace. The installer also includes the drivers for the SDP board and plugins for multiple Analog Devices evaluation boards, including the EVAL-AD5767SD2Z. After the ACE software is installed, connect the evaluation board and SDP controller board together and plug the USB cable from the PC to the SDP controller board. Allow a few moments for the Windows operating system to recognize the SDP board. 1. 2. 3. 4. To launch the ACE software, click Start > All Programs> Analog Devices > ACE). The software opens in the Start view tab and recognizes the EVAL-AD5767SD2Z (see Figure 7). Double click the AD5767 Board icon under Attached Hardware to open the AD5767 Board tab (see Figure 8). Double click the AD5767 chip shown in Figure 8 to open the AD5767 tab (see Figure 9). This tab displays the block diagram and allows the user to configure the DAC input registers and control registers. The hardware registers on the AD5767 are not altered until the Apply Changes button is clicked. Click the Proceed to Memory Map button (Label 12 in Figure 11) to open the AD5767 Memory Map tab and allow access to all registers (see Figure 10). The hardware registers on the AD5767 are not altered until the Apply Changes button is clicked. 15163-007 For a detailed description of all GUI options, see Table 6 and Figure 11. Figure 7. Start Tab Rev. 0 | Page 7 of 17 EVAL-AD5767SD2Z User Guide 15163-008 UG-1070 15163-009 Figure 8. AD5767 Board Tab Figure 9. AD5767 Chip Tab Rev. 0 | Page 8 of 17 UG-1070 15163-010 EVAL-AD5767SD2Z User Guide Figure 10. AD5767 Memory Map Tab 2 7 4 3 6 5 8 9 10 11 12 Figure 11. Main Window Rev. 0 | Page 9 of 17 15163-011 1 EVAL-AD5767SD2Z User Guide 15163-012 UG-1070 Figure 12. Span Selection Window Table 6. GUI Options (See Figure 11) Label No. 1 2 3 GUI Element Apply Changes Reset Chip Write to Input Register 4 Select output 5 6 7 Input Register DAC Register RANGE SET DAC 8 9 10 11 12 DAC x Signal, Invert, and Scale 16-To-1 MUX SOFTWARE RESET Proceed to Memory Map Description This button must be clicked to submit any changes on the GUI to the evaluation board hardware. Issues a hardware reset and reverts the software and hardware registers to their default settings. Allows the user to write to the input register, write to the input register and the DAC register, or write to the input register and update all DAC registers. Channels displayed. Allows the user to show Channel 0 to Channel 3, Channel 4 to Channel 7, Channel 8 to Channel 11, or Channel 12 to Channel 15 for VOUT in the AD5767 chip tab. The user can input data to write to the input register. There is one input register per channel. This is a graphical representation of the DAC register. There is one DAC register per channel. Click RANGE SET DAC to select the output voltage range from the Span Selection window (see Figure 12). Click the DAC to apply a dither signal or to power down the selected channel. Allows the user to select the dither options for each channel. Select which channel to route to the AD5767 MUX_OUT pin. Issues a software reset and reverts the software and hardware registers to their default settings. Click to open the AD5767 Memory Map tab (see Figure 10). Rev. 0 | Page 10 of 17 EVAL-AD5767SD2Z User Guide UG-1070 EVALUATION BOARD SCHEMATICS AND ARTWORK E x tern a l A VDD, A V S S su pp ly + 3 .3 V 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 V DD J9 - 3 E X T_ A VDD A G ND J9 - 2 A G ND V SS J9 - 1 E X T_ A V SS R E SE T R8 100k E xt ern al A VC C Su pp ly Pla ce L5 an d C 1 a s clo se to J1 1 as possib le L5 J1 1 -1 E X T_ A VC C 2 .2 u H V CC + C1 10uF AG N D J1 1 -2 L5 an d C 1 TBD (F ootp ri nt s bot h 0 8 0 5 ) E xte rn al 3 .3 V +3 .3 V fo r si ng le su pply sol u tion 3 .3 V E X T_ 3 .3V J1 2 -1 J1 RE S E T_ IN U A RT_ R X G ND RE S E T_ O U T S DP TW I_ A 0 S TA NDA RD NC C O NN E CTO R NC NC G ND NC NC TM R_ C * TIM ER S TM R_ A BM O DE 1 U AR T_ T X G ND S LE E P W A KE NC NC NC G ND NC CLK _ O U T T MR _ D TM R _ B G PIO 6 G PIO 7 G ND G ND G E NE R AL G PIO 4 G PIO 5 INPU T/O U TP U T G PIO 2 G PIO 3 G PIO 0 G PIO 1 SC L_ 1 SC L_ 0 I2C SD A_ 1 SD A_ 0 G ND G ND SP I_ S EL 1 /S PI_S S S PI_ C L K S PI_ M IS O SP I_ S EL _ C S PI SP I_ S EL _ B S PI_ M O S I G ND S PI_ S E L_ A SP OR T_ INT G ND SP I_ D3* SPO R T_ TS C LK SP I_ D2* SP O RT _D T0 SPO R T SP OR T_ D T1 S PO R T_ TF S SP OR T_ D R1 SP O RT _R F S SP OR T_ T DV1* S PO R T_ DR 0 SP OR T_ T DV0 * S PO R T_ RS C LK G ND G ND PA R_ FS 1 PA R_ C L K PA R_ FS 3 PA R_ F S2 PA R_ A 1 PA R _ A0 PA R_ A 3 PA R _ A2 G ND G ND PA R_ C S PA R_ INT PA R_ R D P AR _ W R PA R_ D1 PAR _ D0 PAR A LLE L PA R_ D3 PAR _ D2 P O RT PA R_ D5 PAR _ D4 G ND G ND PA R_ D7 PAR _ D6 PA R_ D9 PAR _ D8 PA R_ D1 1 PAR _ D1 0 PA R_ D1 3 PAR _ D1 2 PA R_ D1 4 G ND G ND PAR _ D1 5 * _ D1 6 PA R_ D1 7* PAR * PA R_ D1 9* PAR _ D1 8 * * PA R_ D2 1 PAR _ D2 0 * _ D2 2 PA R_ D2 3* PAR G ND G ND U S B_ V BU S V IO ( +3.3 V ) G ND G ND G ND G ND NC NC * NC on BL A CK F IN SD P VIN NC 61 62 63 64 R24 65 100k 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 R4 104 105 100k 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 R1 8 D NP 1 2 3 4 R2 5 100k +3 .3 V U4 A0 A1 A2 VSS 8 7 6 5 VCC WP SCL SD A 2 4 LC 6 4 -I/S N S CLK S DI S YN C SDO DIG ILE N T Pm od In ter fa ce Type 2 A (exp an ded S PI) SY NC SD O 1 3 5 7 9 11 J1 0 SS M O SI M IS O S CK G N D VD D INT R E S ET N /S N/S G N D VD D 2 4 6 8 10 12 S DI S CL K VL O G IC R E SE T DG N D +3 .3 V PG ND J1 2 -2 DG ND PG ND DG ND E xt ern al V LO G IC S u pply V LO G IC 15163-013 E X T_ VLO G IC J1 3 -1 DG ND J1 3 -2 DG ND Figure 13. SDP Connector and Power Supply R1 4 255K C3 3 R32 12nF 1 3 .7 k E X T_ 3 .3 V C31 0 .1 u F C4 R3 8 3 0.1 k + C30 LK 1 1 U7 AD P5 0 7 1 A C PZ 8 3 3 pF 6 1 0u F 7 14 VREG R37 1 9 .6 k C2 9 1uF 15 17 C28 10uF 16 SS INB K E N1 SW 1 VR E G R34 C34 27nF 10 1 1 .8 k 2 4 3 VREG PVIN 1 PG N D R26 8 2 k5 PVIN SYS PG ND E N2 CO M P2 VREF 5 19 C32 1uF 12 R31 9 .0 9 K R28 3 k5 7 SYN C SL EW FB2 SE Q 13 21 11 O u tpu t F ilters LK 1 2 18 D2 L3 4 .7 H 1 4 .7 O h m L2 LK 10 B 2 .2 u H A LK 6 Figure 14. ADP5071 Power Solution Rev. 0 | Page 11 of 17 R30 102K R23 B C26 10uF A A B C18 10uF PVIN 2 SW 2 A GN D E P LK 9 C17 10uF D1 20 C14 2 7 pF IN T_ A VDD 2 .2 u H C25 10uF FB1 9 L1 L4 1 .5 H CO M P1 V+ O u tpu t F ilters 1 VIN T_ A V SS C19 10uF PG N D 15163-014 LK 8 10uF + C10 10uF + C27 0 .1 u F + 0.1 u F A VCC B E XT _A V SS LK5 A VDD C6 10uF + C5 0 .1 u F U6 A DR 4 5 2 5B R Z VREF A V SS LK 7 B A C9 A IN T_ A V SS E XT _ A VDD B LK4 C36 C2 3 C68 1uF 0 .1 u F LK 1 A C1 2 A B LK 3 1 0u F 6 VO U T +V IN G ND 4 2 B 0 .1 uF IN T_ A VDD E X T_ 3 .3 V A B L K2 C2 4 E XT _A V CC E XT _ 3.3 V A EVAL-AD5767SD2Z User Guide E XT _ VL O G IC UG-1070 C6 9 0 .1 u F + E XT_ 3 .3 V E XT_ A V CC C70 10uF EX T_ V RE F SD I F7 E7 C7 E6 F2 VR E F B1 D7 V OUT 0 V OUT 1 V OUT 2 V OUT 3 V OUT 4 V OUT 5 V OUT 6 V OUT 7 V OUT 8 V OUT 9 VO U T1 0 VO U T1 1 VO U T1 2 VO U T1 3 VO U T1 4 VO U T1 5 VL O G IC U1 SY NC SC L K SD I SD O A D5 7 6 7 B CB Z S DO N0 F1 A G ND1 A G ND2 F6 B2 A1 A7 G1 G7 C5 DG N D RE S E T B6 B7 DN C DN C DN C DN C DN C R E S ET N0 B3 A2 A3 B4 A4 A5 A6 B5 F5 G6 G5 G4 F4 G3 G2 F3 M UX _OUT V OUT 0 V OUT 1 V OUT 2 V OUT 3 V OUT 4 V OUT 5 V OUT 6 V OUT 7 V OUT 8 V OUT 9 V O U T 10 V O U T 11 V O U T 12 V O U T 13 V O U T 14 V O U T 15 N1 N1 _ IN 15163-015 N0 _ IN C1 N1 S CL K M U X_ O U T E1 C6 SYN C NIC NIC NIC NIC A V SS E2 E3 E4 E5 A VDD 0 .1 u F A V CC C13 N IC N IC N IC N IC N IC N IC N IC N IC VL O G IC D1 0 .1 u F C2 C3 C4 D2 D3 D4 D5 D6 C2 2 D G ND Figure 15. AD5767 (WLCSP) and External Reference Rev. 0 | Page 12 of 17 0r 0r C47 DNP R1 7 DN P VO U T7 DNP V O U T1 4 V O U T1 5 0r C58 DNP J 3 -4 J 3 -6 J 3- 8 J3 - 10 DNP R3 6 DN P R59 VO U T1 5 J 3 -2 J 3 -1 J 3 -3 J 3 -5 0r C57 DNP J3 - 12 J 2- 8 J 3- 7 J 3- 9 R58 VO U T1 4 DNP R3 5 DN P R4 1 DN P DNP Figure 16. Channel Outputs 15163-017 R51 VO U T7 V O U T1 3 0r C56 DNP DNP R1 6 DN P J2 -1 5 C46 DNP VO U T6 R57 VO U T1 3 DNP R3 3 DN P 15163-016 J2 - 13 R50 VO U T6 C55 DNP DNP R1 5 DN P V O U T1 2 J3 - 14 0r C45 DNP VO U T5 DNP 0r J2 - 12 R49 VO U T5 V O U T1 1 R2 2 DN P R56 VO U T1 2 DNP R1 3 DN P J2 - 11 C40 DNP VO U T4 DN P R44 D NP J3 -1 6 0r 0r MU X _ OU T DNP 0r C54 DNP J2 - 10 J 2- 9 R48 VO U T4 R55 VO U T1 1 DNP R1 1 DN P V O U T1 0 R2 1 DN P J3 - 11 0r C39 DNP VO U T3 C53 DNP R60 C51 DNP 0r J2 - 14 R47 VO U T3 R54 VO U T1 0 DNP R9 DN P J 2- 7 C38 DNP VO U T2 MUX MU X _ OU T DNP R2 0 DN P J3 - 13 0r V O U T9 0r C52 DNP J 2 -6 J 2 -5 R46 VO U T2 DNP R1 9 DN P R53 VO U T9 DNP R6 DN P V O U T8 0r C48 DNP J 2 -4 J 2 -3 0r C37 DNP VO U T1 R52 VO U T8 DNP R4 5 DN P R43 VO U T1 UG-1070 J3 -1 5 0r C15 DNP VO U T0 J2 -1 6 R42 VO U T0 J 2 -2 J 2 -1 EVAL-AD5767SD2Z User Guide Figure 17. Top Printed Circuit Board (PCB) Layer Rev. 0 | Page 13 of 17 EVAL-AD5767SD2Z User Guide 15163-018 UG-1070 15163-019 Figure 18. Inner First PCB Layer Figure 19. Inner Second PCB Layer Rev. 0 | Page 14 of 17 UG-1070 15163-020 EVAL-AD5767SD2Z User Guide Figure 20. Bottom PCB Layer Rev. 0 | Page 15 of 17 UG-1070 EVAL-AD5767SD2Z User Guide ORDERING INFORMATION BILL OF MATERIALS Table 7. Reference Designator C1 C4 C5 C9, C13, C22, C23, C24, C27, C31, C69 C6, C10, C12, C30, C36, C70, C14 C17, C18 C19, C26 C25, C28 C29, C32 C33 C34 C68 D1 D2 J1 J2, J3 J9 J10 J11, J12, J13 L1, L2 L3 L4 L5 LK1 to LK5, LK7 Description Capacitor, 0805, X5R, 10 V, 10 F, 10% Capacitor, 1210, C0G, 50 V, 33 pF, 10% Capacitor, 0603, C0G, 50 V, 0.1 F, 10% Part Number GRM219R61A106KE44D MC0402N330K500CT GRM188R71H104KA93D Stock Code FEC 2346905 FEC 1845741 FEC 8820023 Capacitor, 0805, C0G, 50 V, 0.1 F, 10% GRM21BR71A106KE51L FEC 1828828 Capacitor, 0402, C0G, 50 V, 27 pF, 10% Capacitor, 1206, X5R, 10 V, 10 F, 10% Capacitor, 1206, X5R, 35 V, 10 F, 10% Capacitor, 0805, X5R, 10 V, 10 F, 10% Capacitor, 0603, X5R, 6.3 V, 1 F, 10% Capacitor, 0402, X7R, 16 V, 0.012 F, 10% Capacitor, 0402, X5R, 16 V, 0.027 F, 10% Capacitor, 0805, X7R, 50 V, 1 F, 10% Rectifier diode, single, 20 V, 500 mA, SOD-123, 2, 385 mV Schottky diode 120-way connector, 0.6 mm pitch 16-pin (2x 8), 0.1 inch pitch, single inline (SIL) header 3-pin terminal block (5 mm pitch) PMOD connector 2-pin terminal block (5 mm pitch) Fixed inductor, 2.2 H, 1.6 A, 76 M SMD Surface-mount power inductor Fixed inductor 1.5 H, 4.1 A, 46.8 M 2.2 H shielded multilayer inductor 3-pin SIL header and shorting link C0402C270K5GACTU C3216X5R1A106K160AB GRM31CR6YA106KA12L GRM21BR61A106KE19L GRM188R60J105KA01D MC0402B123K160CT MC0402X273K160CT GRM21BR71H105KA12L MBR0520L PD3S160-7 FX8-120S-SV(21) M20-9980846 CTB5000/3 68021-212HLF CTB5000/2 LQH32PN2R2NN0L XFL4020-472MEC SPM4020T-1R5M AIML-0805-2R2K-T M20-9990345 & M756705 MC 0.063W 0603 0R M20-9990246 MC0063W06031100K MCMR04X2553FTL Digi-Key 399-8960-1-ND FEC 1844306 FEC 1797011 FEC 1828805 FEC 9527699 FEC 1758886 FEC 1759382 FEC 1735541 FEC 1467521 FEC 1843697 FEC 1324660 FEC 1022240 FEC 151790 Digi-Key 609-3345-ND FEC 151789 Digi-Key 490-5336-2-ND FEC 2289218 Digi-Key 445-172371-1-ND Digi-Key 535-11631-2-ND FEC 1022248 and FEC 150410 FEC 9331662 FEC 1022247 and FEC 150-411 FEC 9330402 FEC 2072839 CRCW040214R7FKED FEC 2140591 MC00625W0402182K5 MC00625W040213K57 MC00625W04021102K MC00625W040219K09 MCMR04X1372FTL CRCW040211K8FKED MC00625W0402119K6 CRCW040230K1FKED MC00625W040210R AD5767 24LC64-I/SN ADR4525BRZ ADP5071ACPZ FEC 1803742 FEC 1803091 FEC 1803752 FEC 1803134 FEC 2072621 FEC 2140865 FEC 1803680 FEC 1469704 FEC 1357983 AD5767BCBZ-WP FEC 9758070 ADR4525BRZ ADP5071ACPZ LK6, LK9, LK10 LK8, LK11, LK12 2-way resistor link option 2-pin (0.1 inch pitch) header and shorting shunt R4, R8, R24, R25 R14 Resistor, 100 k, 0.063 W, 1%, 0603 Surface-mount chip resistor, ceramic, MCMR series, 255 k, 62.5 mW, 1%, 50 V Surface-mount chip resistor, thick film, AEC-Q200 CRCW series, 14.7 , 63 mW, 1%, 50 V Resistor, 82.5 k, 0.0625 W, 1%, 0402 Resistor, 3.57 k, 0.0625 W, 1%, 0402 Resistor, 102 k, 0.0625 W, 1%, 0402 Resistor, 9.09 k, 0.0625 W, 1%, 0402 Resistor, 13.7 k, 0.0625 W, 1%, 50 V, 0402 Resistor, 11.8 k, 0.063 W, 1%, 50 V, 0402 Resistor, 19.6 k, 0.0625 W, 1%, 50 V, 0402 Resistor, 30.1 k, 0.063 W, 1%, 50 V, 0402 Resistor, 0402, 1%, 0 16-channel, 12-bit voltage output denseDAC 64 kb I2C serial EEPROM 2.5 V voltage reference 2 A/1.2 A dc to dc switching regulator with independent positive and negative outputs R23 R26 R28 R30 R31 R32 R34 R37 R38 R42, R43, R46 to R60 U1 U4 U6 U7 Rev. 0 | Page 16 of 17 EVAL-AD5767SD2Z User Guide UG-1070 NOTES ESD Caution ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality. Legal Terms and Conditions By using the evaluation board discussed herein (together with any tools, components documentation or support materials, the "Evaluation Board"), you are agreeing to be bound by the terms and conditions set forth below ("Agreement") unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you ("Customer") and Analog Devices, Inc. ("ADI"), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONLY. Customer understands and agrees that the Evaluation Board is provided for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional limitations: Customer shall not (i) rent, lease, display, sell, transfer, assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term "Third Party" includes any entity other than ADI, Customer, their employees, affiliates and in-house consultants. The Evaluation Board is NOT sold to Customer; all rights not expressly granted herein, including ownership of the Evaluation Board, are reserved by ADI. CONFIDENTIALITY. This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI. Customer may not disclose or transfer any portion of the Evaluation Board to any other party for any reason. Upon discontinuation of use of the Evaluation Board or termination of this Agreement, Customer agrees to promptly return the Evaluation Board to ADI. ADDITIONAL RESTRICTIONS. Customer may not disassemble, decompile or reverse engineer chips on the Evaluation Board. Customer shall inform ADI of any occurred damages or any modifications or alterations it makes to the Evaluation Board, including but not limited to soldering or any other activity that affects the material content of the Evaluation Board. Modifications to the Evaluation Board must comply with applicable law, including but not limited to the RoHS Directive. TERMINATION. ADI may terminate this Agreement at any time upon giving written notice to Customer. Customer agrees to return to ADI the Evaluation Board at that time. LIMITATION OF LIABILITY. THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED "AS IS" AND ADI MAKES NO WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT. ADI SPECIFICALLY DISCLAIMS ANY REPRESENTATIONS, ENDORSEMENTS, GUARANTEES, OR WARRANTIES, EXPRESS OR IMPLIED, RELATED TO THE EVALUATION BOARD INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, TITLE, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES RESULTING FROM CUSTOMER'S POSSESSION OR USE OF THE EVALUATION BOARD, INCLUDING BUT NOT LIMITED TO LOST PROFITS, DELAY COSTS, LABOR COSTS OR LOSS OF GOODWILL. ADI'S TOTAL LIABILITY FROM ANY AND ALL CAUSES SHALL BE LIMITED TO THE AMOUNT OF ONE HUNDRED US DOLLARS ($100.00). EXPORT. Customer agrees that it will not directly or indirectly export the Evaluation Board to another country, and that it will comply with all applicable United States federal laws and regulations relating to exports. GOVERNING LAW. This Agreement shall be governed by and construed in accordance with the substantive laws of the Commonwealth of Massachusetts (excluding conflict of law rules). Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed. (c)2017 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. UG15163-0-1/17(0) Rev. 0 | Page 17 of 17