EVAL-ADM1186-2MBZ

Evaluation Kits for ADM1186 Quad Sequencer and Monitor EVAL-ADM1186 FEATURES 4 on-board variables supplies with LEDs to show status LEDs to show power good, fault, and sequence done (main evaluation kits only) Switchable capacitors to set time delays (main evaluation kits only) Manual fault push switch Single step mode Multiple boards can be cascaded for more than four supplies (EVAL-ADM1186-1EBZ only) PRODUCT DESCRIPTION The ADM1186-1 and ADM1186-2 can be used to turn on and off four supplies in sequence under the control of a state machine, and can monitor the supplies to ensure that they are above a user defined undervoltage (UV) threshold. If any supply drops below the UV threshold, a fault occurs and the state machine turns all the supplies off. GENERAL DESCRIPTION There are two types of evaluation kits for the ADM1186-1 and ADM1186-2. The main evaluation boards are intended for standalone operation of the devices with just an external mains power supply. They provide all the on-board supplies, controls, and status indicators necessary to operate the device. The micro-evaluation boards are intended to allow the ADM118-1 or ADM1186-2 to be easily used as part of a bench prototype, and include the minimal set of components. The evaluation kits for each device allow a user to perform controlled up and down sequences of four supplies. The main evaluation kits allow simulated fault conditions on each on-board supply or on a control signal. All kits provide the ability to single-step and observe the behavior of the state machine during the power-up and power-down sequence. A single ADM1186-1 can control four supplies, but it is possible to join multiple devices and boards together to support cascaded up and down sequences of eight, 12, or more supplies. The main ADM1186-1 evaluation board supports a daisy-chain connection to demonstrate this feature. EVALUATION KIT CONTENTS The EVAL-ADM1186-1EBZ and EVAL-ADM1186-2EBZ evaluation kits contain an evaluation board, along with some samples of the ADM1186-1 or the ADM1186-2 parts. The EVAL-ADM1186-1MBZ and EVAL-ADM1186-2MBZ micro-evaluation kits contain only an evaluation board. For all types of evaluation kit, an ADM1186-1 or ADM1186-2 device is present and soldered to the board. Rev. 0 Evaluation boards are only intended for device evaluation and not for production purposes. Evaluation boards are supplied “as is” and without warranties of any kind, express, implied, or statutory including, but not limited to, any implied warranty of merchantability or fitness for a particular purpose. No license is granted by implication or otherwise under any patents or other intellectual property by application or use of evaluation boards. Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Analog Devices reserves the right to change devices or specifications at any time without notice. Trademarks and registered trademarks are the property of their respective owners. Evaluation boards are not authorized to be used in life support devices or systems. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. www.analog.com Tel: 781.329.4700 Fax: 781.461.3113 ©2008 Analog Devices, Inc. All rights reserved. EVAL-ADM1186 TABLE OF CONTENTS Features .............................................................................................. 1 Evaluation Board Operation ............................................................9 Product Description ......................................................................... 1 Power Requirement.......................................................................9 General Description ......................................................................... 1 Getting Started ...............................................................................9 Evaluation Kit Contents ................................................................... 1 Cascading Multiple Boards ....................................................... 10 Revision History ............................................................................... 2 Micro-Evaluation Board ............................................................ 11 Functional Block Diagrams ............................................................. 3 Evaluation Board Schematics........................................................ 12 Evaluation Board Hardware ............................................................ 5 Ordering Information .................................................................... 20 Evaluation Board Connector, Switch, Jumper, LED, and Test Point Functions ............................................................................. 5 Bill of Materials ........................................................................... 20 Micro-Evaluation Board Switch Functions ............................... 8 ESD Caution................................................................................ 24 Ordering Guide .......................................................................... 24 REVISION HISTORY 9/08—Revision 0: Initial Version Rev. 0 | Page 2 of 24 EVAL-ADM1186 FUNCTIONAL BLOCK DIAGRAMS 5V BARREL JACK IN SUPPLY 1 EN OUT IN 5V REG OUT 3.3V 5V JACK 5V S1 IN SUPPLY 2 EN OUT TERM TERMINAL BLOCK 2.5V 5V 5V IN 3.3V REG OUT IN SUPPLY 3 EN OUT J4 3.3V B 1.8V 5V A IN SUPPLY 4 EN OUT VCC VCC OUT1 OUT2 OUT3 OUT4 ADM1186-1 J5 R7 R2 R4 R6 R8 VIN2 A B VIN4 UP VCC SEQ_DONE_NEXT PWRGD BUS VCC BLANK_DLY DLY_EN_OUT4 PWRGD DLY_EN_OUT3 B J7 DOWN DLY_EN_OUT2 A DLY_EN_OUT1 J6 SEQ_DONE J8 SEQ_DONE GND OUT1 CAP DELAYS OUT2 CAP DELAYS OUT3 CAP DELAYS OUT4 CAP DELAYS Figure 1. ADM1186-1 Evaluation Board Rev. 0 | Page 3 of 24 BLANK CAP DELAYS 07620-001 SEQ/HOLD DOWN R5 VIN3 SEQ_DONE_PREV SEQ_CNTRL R3 VIN1 FAULT J10 S2 R1 J9 FAULT BUS VCC UP 1.5V EVAL-ADM1186 BARREL JACK 5V 9V IN SUPPLY 1 EN OUT IN 5V REG OUT 3.3V 5V JACK S1 5V IN SUPPLY 2 EN OUT TERM TERMINAL BLOCK 2.5V 5V 5V IN 3.3V REG OUT IN SUPPLY 3 EN OUT J4 3.3V B 1.8V 5V A VCC IN SUPPLY 4 EN OUT OUT1 OUT2 OUT3 OUT4 1.5V R1 R3 R5 R7 R2 R4 R6 R8 VIN1 VIN2 ADM1186-2 VIN3 VCC UP S2 SEQ_CNTRL VIN4 UP/DOWN DOWN BLANK_DLY DLY_EN_OUT4 DLY_EN_OUT3 PWRGD GND OUT2 CAP DELAYS OUT3 CAP DELAYS OUT4 CAP DELAYS BLANK CAP DELAYS Figure 2. ADM1186-2 Evaluation Board Rev. 0 | Page 4 of 24 07620-002 SEQ/HOLD DLY_EN_OUT2 VCC EVAL-ADM1186 EVALUATION BOARD HARDWARE EVALUATION BOARD CONNECTOR, SWITCH, JUMPER, LED, AND TEST POINT FUNCTIONS Table 1. Connector Functions Reference J1 Name Terminal block J2 Cascade pin header J3 DC barrel jack J11 Cascade socket header Function J1-1: Connects the a positive terminal of a 5 V bench supply to the board J1-2: Connects the ground terminal of a bench supply to the board Connects to the previous board when interconnecting ADM1186-1 boards in cascade (EVAL-ADM1186-1EBZ only) J3-Outer: Connects the a positive terminal of a 9 V supply to the board J3-Center: Connects the ground terminal of a supply to the board Connects to the next board when interconnecting ADM1186-1 boards in cascade (EVAL-ADM1186-1EBZ only) Table 2. Switch Functions Reference S1 Description Switch to select power source S2 Sequence control S3 Delay 1 control (EVAL-ADM1186-1EBZ only) S4 Delay 2 control S5 Delay 3 control S6 Delay 4 control S7 Blanking delay control S8 Sets time delay associated with the 3.3 V supply (EVAL-ADM1186-1EBZ only) S9 Sets time delay associated with the 2.5 V supply S10 Sets time delay associated with the 1.8 V supply S11 Sets time delay associated with the 1.5 V supply S12 Sets time delay associated with the blanking time Position Jack Term Up Down Hold Seq Hold Seq Hold Seq Hold Seq Hold Seq S8-1 S8-2 S8-3 S8-4 S9-1 S9-2 S9-3 S9-4 S10-1 S10-2 S10-3 S10-4 S11-1 S11-2 S11-3 S11-4 S12-1 S12-2 S12-3 S12-4 Function Selects dc barrel jack as power source Selects terminal block as power source Connects the UP and DOWN pins to the ADM1186 supply Connects the UP and DOWN pins to ground Connects the DLY_EN_OUT1 pin to ground to pause the state machine No connection to the DLY_EN_OUT1 pin, no effect on the state machine Connects the DLY_EN_OUT2 pin to ground to pause the state machine No connection to the DLY_EN_OUT2 pin, no effect on the state machine Connects the DLY_EN_OUT3 pin to ground to pause the state machine No connection to the DLY_EN_OUT3 pin, no effect on the state machine Connects the DLY_EN_OUT4 pin to ground to pause the state machine No connection to the DLY_EN_OUT4 pin, no effect on the state machine Connects the BLANK_DLY pin to ground to pause the state machine No connection to the BLANK_DLY pin, no effect on the state machine Connects C9 and C5 (user-defined) between the DLY_EN_OUT1 pin and ground Connects C8 (1 μF) between the DLY_EN_OUT1 pin and ground Connects C7 (100 nF) between the DLY_EN_OUT1 pin and ground Connects C2 (1 nF) between the DLY_EN_OUT1 pin and ground Connects C21 and C14 (user-defined) between the DLY_EN_OUT2 pin and ground Connects C17 (1 μF) between the DLY_EN_OUT2 pin and ground Connects C15 (100 nF) between the DLY_EN_OUT2 pin and ground Connects C12 (1 nF) between the DLY_EN_OUT2 pin and ground Connects C35 and C24 (user-defined) between the DLY_EN_OUT3 pin and ground Connects C27 (1 μF) between the DLY_EN_OUT3 pin and ground Connects C25 (100 nF) between the DLY_EN_OUT3 pin and ground Connects C23 (1 nF) between the DLY_EN_OUT3 pin and ground Connects C36 and C31 (user-defined) between the DLY_EN_OUT4 pin and ground Connects C30 (1 μF) between the DLY_EN_OUT4 pin and ground Connects C29 (100 nF) between the DLY_EN_OUT4 pin and ground Connects C28 (1 nF) between the DLY_EN_OUT4 pin and ground Connects C41 and C38 (user-defined) between the DLY_EN_OUT4 pin and ground Connects C40 (1 μF) between the DLY_EN_OUT4 pin and ground Connects C39 (100 nF) between the DLY_EN_OUT4 pin and ground Connects C37 (1 nF) between the DLY_EN_OUT4 pin and ground Rev. 0 | Page 5 of 24 EVAL-ADM1186 Reference S13 VR1 VR2 VR3 VR4 Description Manual fault switch (EVAL-ADM1186-1EBZ only) 3.3 V adjust 2.5 V adjust 1.8 V adjust 1.5 V adjust Position Pressed Function Connects the FAULT line to ground N/A N/A N/A N/A Reduces the 3.3 V supply voltage when the switch is turned counterclockwise Reduces the 2.5 V supply voltage when the switch is turned counterclockwise Reduces the 1.8 V supply voltage when the switch is turned counterclockwise Reduces the1.5 V supply voltage when the switch is turned counterclockwise Table 3. Jumper Functions Reference J4 J5 J6 J7 J8 J9 J10 Description J4-A: Connects the VCC pin to a 5 V supply J4-B: Connects the VCC pin to a 3.3 V supply J5-A: Connects the UP pin to the SEQ_DONE signal of the previous board in cascade J5-B: Connects the UP pin to Switch S2 if the first board in cascade or a single standalone board (EVAL-ADM1186-1EBZ only) J6-A: Connects the DOWN pin to the SEQ_DONE signal of the next board in cascade J6-B: Connects the DOWN pin to Switch S2 if the last board in cascade or a single standalone board (EVAL-ADM1186-1EBZ only) Connects PWRGD to a VCC supply via 10 kΩ pull-up resistor (EVAL-ADM1186-1EBZ only) Connects the PWRGD pin to the PWRGD bus in cascade operation (EVAL-ADM1186-1EBZ only) Connects the FAULT pin to VCC supply via 10 kΩ pull-up resistor (EVAL-ADM1186-1EBZ only) Connects the FAULT pin to the FAULT bus in cascade operation (EVAL-ADM1186-1EBZ only) Default J4-A J5-B J6-B Fitted Fitted Fitted Fitted Table 4. LED Functions Reference D1 D2 D3 D4 D5 D6 D7 D8 D9 Name 5 V board supply 3.3 V ADM1186 supply 3.3 V variable supply 2.5 V variable supply 1.8 V variable supply 1.5 V variable supply PWRGD SEQ_DONE (EVAL-ADM1186-1EBZ only) FAULT (EVAL-ADM1186-1EBZ only) Function The green LED indicates the status of the main 5 V supply rail The green LED indicates the status of the ADM1186 3.3 V supply rail The green LED indicates the status of the variable 3.3 V supply rail The green LED indicates the status of the variable 2.5 V supply rail The green LED indicates the status of the variable 1.8 V supply rail The green LED indicates the status of the variable 1.5 V supply rail The green LED indicates when the PWRGD pin is asserted high The green LED indicates when the SEQ_DONE pin is asserted high The red LED indicates when the FAULT pin is asserted low Rev. 0 | Page 6 of 24 EVAL-ADM1186 Table 5. Test Point Functions Reference 5V0B 3V3B 3_3V 2_5V 1_8V 1_5V VIN1 VIN2 VIN3 VIN4 UP /DOWN UP/DOWN OUT1 OUT2 OUT3 OUT4 PWRGD SEQ_DONE /FAULT DLY1 DLY2 DLY3 DLY4 BLNK SEQ_DONE_NEXT SEQ_DONE_PREV SEQ_CNTRL_A SEQ_CNTRL_B GND1 GND2 Function Monitors the voltage at the 5 V regulator output or input to J1-1 depending on position of Switch S1 Monitors the voltage at the output of the 3.3 V ADM1186 regulator Monitors the voltage at the output of the 3.3 V variable regulator Monitors the voltage at the output of the 2.5 V variable regulator Monitors the voltage at the output of the 1.8 V variable regulator Monitors the voltage at the output of the 1.5 V variable regulator Monitors the voltage at the VIN1 pin Monitors the voltage at the VIN2 pin Monitors the voltage at the VIN3 pin Monitors the voltage at the VIN4 pin Monitors the voltage at the UP pin (EVAL-ADM1186-1EBZ only) Monitors the voltage at the DOWN pin (EVAL-ADM1186-1EBZ only) Monitors the voltage at the UP/DOWN pin (EVAL-ADM1186-2EBZ only) Monitors the voltage at the OUT1 pin Monitors the voltage at the OUT2 pin Monitors the voltage at the OUT3 pin Monitors the voltage at the OUT4 pin Monitors the voltage at the PWRGD pin Monitors the voltage at the SEQ_DONE pin (EVAL-ADM1186-1EBZ only) Monitors the voltage at the FAULT pin (EVAL-ADM1186-1EBZ only) Monitors the voltage at the DLY_EN_OUT1 pin (EVAL-ADM1186-1EBZ only) Monitors the voltage at the DLY_EN_OUT2 pin Monitors the voltage at the DLY_EN_OUT3 pin Monitors the voltage at the DLY_EN_OUT4 pin Monitors the voltage at the BLANK_DLY pin Monitors the voltage at the SEQ_DONE pin of the next ADM1186-1 device in cascade (EVAL-ADM1186-1EBZ only) Monitors the voltage at the SEQ_DONE pin of the previous ADM1186-1 device in cascade (EVAL-ADM1186-1EBZ only) Monitors the voltage on the sequence control bus in cascade (EVAL-ADM1186-1EBZ only) Monitors the same voltage as SEQ_CNTRL_A (EVAL-ADM1186-1EBZ only) Ground terminal Ground terminal Rev. 0 | Page 7 of 24 EVAL-ADM1186 MICRO-EVALUATION BOARD SWITCH FUNCTIONS Table 6. ADM1186-1MBZ Switch Functions Reference S1 Description Single stepping and fault generation Position S1-1 S1-2 S1-3 S1-4 S1-5 S1-6 Function Delay 1 control; when on, connects the DLY_EN_OUT1 pin to ground to pause state machine Delay 2 control; when on, connects the DLY_EN_OUT2 pin to ground to pause state machine Delay 3 control; when on, connects the DLY_EN_OUT3 pin to ground to pause state machine Delay 4 control; when on, connects the DLY_EN_OUT4 pin to ground to pause state machine Blanking delay control; when on, connects the BLANK_DLY pin to ground to pause state machine Fault generation; when on, holds the FAULT line low Table 7.ADM1186-2MBZ Switch Functions Reference S1 Description Single stepping Position S1-1 S1-2 S1-3 S1-4 Function Delay 2 control; when on, connects the DLY_EN_OUT2 pin to ground to pause state machine Delay 3 control; when on, connects the DLY_EN_OUT3 pin to ground to pause state machine Delay 4 control; when on, connects the DLY_EN_OUT4 pin to ground to pause state machine Blanking delay control; when on, connects the BLANK_DLY pin to ground to pause state machine Rev. 0 | Page 8 of 24 EVAL-ADM1186 EVALUATION BOARD OPERATION POWER REQUIREMENT Setting Voltage-Detection Levels The evaluation board requires a supply rail of 5 V, which can be provided in one of two ways: either a dc supply of 5 V can be directly connected to the terminal block, J1 with polarity as marked on the PCB, or a 9 V dc supply can be connected to the J3 barrel jack connector, which is then regulated down. The center of the barrel jack connector is ground. The input pins, VIN1 to VIN4, monitor one of four supply voltages. The VIN1 pin monitors the 3.3 V rail. An external resistor divider scales this voltage down for monitoring at the VIN1 pin. The resistor ratio has been chosen so that the VIN1 voltage is 0.6 V when the 3.3 V rail is 5% below its nominal value. For example, if R1 is 100 kΩ and R2 is 23.7 kΩ, a voltage level of 3.13 V corresponds to 0.6 V at the VIN1 pin, as shown in Figure 3. A switch, S1, selects which of the two supply options (jack or term) is used by the board. At no time should a supply connection be made to both J1 and J3. V 3.3V 3.13V 0V 100kΩ 3.13V SUPPLY GIVES 0.6V AT VIN1 PIN GETTING STARTED This section demonstrates the basic operation of a main evaluation board, performing a simple up and down sequence. The detailed operation and configuration of the board is covered in the following sections. To configure a single board to perform an up and down sequence, use the following steps: 1. 2. 3. 4. 5. Set S2 to the down position. Set the S3 to S7 switches to the Seq position. S3 is present only on EVAL-ADM1186-1EBZ. Set switch banks S8 to S12 such that only Switch Position 2 on each bank of switches is on. S8 is present only on EVALADM1186-1EBZ. On EVAL-ADM1186-1EBZ, ensure that jumpers are fitted on J8 to J10. Ensure that jumpers are fitted in positions J4-A, J5-B, and J6-B. Only J4 is present on EVAL-ADM1186-2EBZ. Turn VR1 to VR4 so that they are fully clockwise. Connect an appropriate supply to either J1 or J3 and set Switch S1 accordingly. The D1 and D2 LEDs should be on. Change Switch S2 to the up position to start an up sequence. The four supplies turn on, shown by LEDs D3 to D6. The PWRGD (power good) and SEQ_DONE (sequence done) LEDs, D7 and D8, are also turned on at the end of the up sequence. Setting S2 to down reverses the sequence, turning off the LEDs. t ADM1186 VIN1 27.2kΩ 0.6V TO LOGIC CORE 07620-003 When multiple EVAL-ADM1186-1EBZ boards are cascaded together, power needs to be applied to a single board. Switch S1 must be set to the same position on all boards, depending on whether the terminal block or barrel jack is in use. This should be done before power is connected. Figure 3. Setting the Undervoltage Threshold with an External Resistor Divider Board Supplies The board supply of 5 V is used to generate the four rails monitored by VIN1 to VIN2. The four other rails are nominally 3.3 V, 2.5 V, 1.8 V, and 1.5 V, but can be varied by about ±10% using the variable resistors VR1 to VR4, respectively. This range is sufficient to allow the user to set a supply above or below the UV level to simulate undervoltage faults during a sequence or once powered on. Capacitor Timing and Single Stepping The ADM1186-1 provides five timing pins, four used for sequence delays and one for a blanking time. The ADM1186-2 provides four timing pins, three used for sequence delays and one for a blanking time. A capacitor on each pin sets the time delay for a given state during an up or a down sequence. The evaluation boards provide three fixed value capacitors for each sequence delay that can be individually switched in or out, as required, using S8 to S11 (S8 is found only on EVAL-ADM11861EBZ). The capacitor values fitted are 10 nF, 100 nF, and 1 μF, giving approximate delay times of 1 ms, 10 ms, and 100 ms. The evaluation boards provide three fixed value capacitors for the blanking delay that can be individually switched in or out, as required, using S12. The capacitor values fitted are 10 nF, 47 nF, and 100 nF, giving approximate delay times of 1 ms, 5 ms, and 10 ms. Rev. 0 | Page 9 of 24 EVAL-ADM1186 PIN 1 There is also provision for user capacitors to be fitted to the board that may be switched in for additional sequence or blanking delay time options. For all capacitors, the duration of the time delay is defined by the following formula: Refer to the relevant state machine diagram in the ADM1186 data sheet for the details of when the capacitors are used during the power-up and power-down sequences. Manual Fault Generation The EVAL-ADM1186-1EBZ provides a push switch, S13, that can be used to generate a fault condition by bringing the FAULT line low for as long as the switch is pressed. While S13 is pressed, the D9 LED is lit to indicate a fault condition. The delay control switches can be used to pause the state machine and examine its behavior under various fault conditions. For example, setting the Delay 2 control switch to hold prevents the state machine from advancing to the ENABLE OUT2 state. This allows a user to simulate a UV condition on the 3.3 V supply in the Delay 2 state that is otherwise difficult to achieve. SEQ_CNTRL SEQ_CNTRL SEQ_DONE_N SEQ_DONE_N + 1 07620-004 The S3 to S7 switches are set to the sequence position for normal operation (S3 is found only on the EVAL-ADM1186-1EBZ). Setting a switch to the hold position grounds the timing pin, preventing the capacitor from charging and effectively pausing the state machine. SEQ_DONE_N Associated with each group of capacitors on a timing pin is a switch that can be used to hold the state machine in a specific state. This function allows the user to single-step through an up or down sequence, and manually control when the next state change occurs. PWRGD BUS 5V where: tDELAY is the time delay in seconds. CDELAY is the capacitor value in microfarads. FAULT BUS tDELAY = CDELAY × 0.1 SEQ_DONE_N – 1 J2 J11 PIN 1 Figure 4. Pin Connections for the Cascade Connectors on Board N Figure 5 shows how boards should be connected in cascade and the order in which the twelve supplies are turned on, from 1 to 12. In the power down sequence, the order is reversed so Supply 12 is turned off first and Supply 1 is turned off last. There is a pair of jumpers on EVAL-ADM1186-1EBZ that needs to be set to connect the sequence up and down control signals. Jumper J5 and Jumper J6 should be set according to Table 3. For example, Board A would have J5 in Position B and J6 in Position A. When all boards are configured, Switch S2 on Board A is able to control the up and down sequence for all cascaded boards. ADDITIONAL BOARDS IN CASCADE J11 BOARD C SUPPLIES 9 TO 12 CASCADING MULTIPLE BOARDS J2 The ADM1186-1 provides additional pins and functionality that enable multiple devices to be cascaded, while still maintaining a controlled power-up and power-down sequence. J11 The J2 and J11 connectors are used to daisy-chain the EVALADM1186-1EBZ boards to cascade multiple devices. When connecting the boards together the order is important as this sets the place in the power-up/power-down sequence. The pinouts for the two connectors used for cascading boards are shown in Figure 4. BOARD B SUPPLIES 5 TO 8 J2 J11 BOARD A SUPPLIES 1 TO 4 J2 NO CONNECTION 07620-005 The EVAL-ADM1186-1EBZ supports the cascading of multiple boards so that the behavior of multiple ADM1186-1 parts controlling eight, 12, 16, or more supplies can be demonstrated. Figure 5. Connecting Multiple EVAL-ADM1186-1EBZs in Cascade Rev. 0 | Page 10 of 24 EVAL-ADM1186 Jumper J8 and Jumper J10 allow the isolation of the PWRGD and FAULT signals to individual boards. When the jumpers are fitted, the PWRGD or FAULT signals of each board are connected to the PWRGD or FAULT bus. If the PWRGD signals from all the boards are joined to the PWRGD bus, then the PWRGD signal is active only if all supplies are above their UV threshold levels. If the FAULT signals are all joined to the FAULT bus, a fault on any one board causes all other devices to enter their fault handler states as well. When multiple ADM1186-1 parts are used in cascade, their FAULT pins are typically connected together to ensure that the power-up and power-down sequence works correctly. Finally, Jumper J7 and Jumper J9 are used to connect pull-up resistors to the PWRGD and FAULT pins on each board. The pull-up resistors are connected to the VCC supply rail, selected by J4, for a given ADM1186-1. If multiple PWRGD or FAULT pins are connected together, particularly if the ADM1186-1 devices are being powered from different supply voltages, then only one J7 or J9 jumper should be fitted on all the boards in cascade. MICRO-EVALUATION BOARD The micro-evaluation boards can be used to easily create bench prototypes of a power system. The ADM1186 micro-evaluation boards provide all the minimum components necessary to sequence and monitor four external dc-to-dc power modules or LDOs. Each micro-evaluation board provides precision resistors for scaling to monitor 3.3 V, 2.5 V, 1.8 V, and 1.5 V rails, and capacitors to set the sequencing and blanking delays. A pull-up resistor is also provided on each open-drain output to ensure correct operation. A bank of switches is provided to enable the single-step operation of the state machine. These switches operate in the same ways as the Delay x control switches on the main evaluation boards. Turning on a switch grounds a time capacitor and holds the state machine in the given state if that capacitor is being used to control a time delay. One of the switches on the EVAL-ADM1186-1MBZ is connected to the FAULT line and can be used to generate a fault condition, if required. Rev. 0 | Page 11 of 24 EVAL-ADM1186 EVALUATION BOARD SCHEMATICS 07620-006 Figure 6. EVAL-ADM1186-1EBZ Schematic Page 1 Rev. 0 | Page 12 of 24 EVAL-ADM1186 07620-007 Figure 7. EVAL-ADM1186-1EBZ Schematic Page 2 Rev. 0 | Page 13 of 24 EVAL-ADM1186 07620-008 Figure 8. EVAL-ADM1186-1EBZ Schematic Page 3 Rev. 0 | Page 14 of 24 EVAL-ADM1186 07620-012 Figure 9. EVAL-ADM1186-1MBZ Schematic Rev. 0 | Page 15 of 24 EVAL-ADM1186 07620-009 Figure 10. EVAL-ADM1186-2EBZ Schematic Page 1 Rev. 0 | Page 16 of 24 EVAL-ADM1186 07620-010 Figure 11. EVAL-ADM1186-2EBZ Schematic Page 2 Rev. 0 | Page 17 of 24 EVAL-ADM1186 07620-011 Figure 12. EVAL-ADM1186-2EBZ Schematic Page 3 Rev. 0 | Page 18 of 24 EVAL-ADM1186 07620-013 Figure 13. EVAL-ADM1186-2MBZ Schematic Rev. 0 | Page 19 of 24 EVAL-ADM1186 ORDERING INFORMATION BILL OF MATERIALS Table 8. Bill of Materials for the ADM1186-1EBZ Qty 25 5 6 5 10 Reference Designator /DOWN, /FAULT, 1V5, 1V8, 2V5, 3V3, 3V3B, 5V0B, BLNK, DLY1, DLY2, DLY3, DLY4, GND1, GND2, OUT1 to OUT4, PWRGD, SEQ_CNTRL_A, SEQ_CNTRL_B, SEQ_DONE, SEQ_DONE_NEXT, SEQ_DONE_PREV UP, VIN1 to VIN4 C1, C8, C17, C27, C30, C43 C2, C12, C23, C28, C37 Description Red testpoint Supplier/Number Vero 20-313137 Part Number FEC 8731144 Red top layer testpoint 1 μF, 10 V, ±10%, 0805 capacitor 10 nF, ±10%, 0805 capacitor Vero 20-313137 AVX 0805ZC105KAT2A Multicomp U0805R103KCT Phycomp 222224015667 FEC 8731144 FEC 1327700 FEC 9406352 2.2 μF, 10 V, ±10%, X7R, 0805 capacitor FEC 9402152 5 C3, C4, C6, C10, C11, C13, C16, C18 to C20 C5, C14, C24, C31, C38 0805 capacitor, user defined 7 5 C7, C15, C22, C25, C26, C29, C34 C9, C21, C35, C36, C41 0.1 μF, ±10%, 0805 capacitor Pin socket Kemet C0805F104K5RAC Harwin H3153F01 2 C32, C33 10 μF, 16 V, 10%, tantalum capacitor 1 C39 47 nF, 50 V, ±10% 0805 capacitor 1 8 1 C40 D1 to D8 D9 220 nF, 25 V, ±10% 0805 capacitor Green 0805 chip LED Red 0805 chip LED 1 1 1 D10 J1 J2 1 J3 High speed switching diode, SOD-80C 2-pin top-layer terminal block (5 mm pitch), 8-way top-layer right angle SIL header, (only 8 of the 36 way needed per board) 2.1 mm dc top-layer barrel power connector 3 J4 to J6 3-pin SIL header and shorting link 3 J7 to J9 2-pin (0.1" pitch) header and shorting shunt 1 J10 2-pin (0.1" pitch) header and shorting shunt 1 J11 FEC 1022248 and 150410 FEC 1022247 and 150411 FEC 1022247 and 150411 FEC 7992092 7 Q1 to Q5, Q8, Q10 NXP BC850C FEC 1081241 1 Q9 NXP BC860C FEC 1081249 1 R1 16-pin top-layer header; 100 mil centers, DIP16 BC850C, SOT-23, general-purpose NPN SMD transistor BC860C, SOT-23, general-purpose PNP silicon transistor 100 kΩ, ±0.1%, 0805 resistor EPCOS B45196H3106K209 Multicomp U0805R473KCT AVX 08053C224KAZ1A Kingsbright KP-2012SGC Kingsbright KP-2012SRCPRV NXP BAS32L Lumberg KRM 02 Fisher Elektronik SL 3.25.36G Cliff Electronic Components DC10A Harwin M20-9990345 and M7567-05 Harwin M20-9990246 and M7566-05 Harwin M20-9990246 and M7566-05 Harwin M20-7890846 FEC 1160261 1 R2 23.7 kΩ, ±0.1%, 0805 resistor 2 R3, R5 56.2 kΩ, ±0.1%, 0805 resistor Welwyn PCF0805R 100KBI.T1 Welwyn PCF0805R 23K7BI.T1 Welwyn PCF0805R 56K2BI.T1 Rev. 0 | Page 20 of 24 Option only, not fitted FEC 1288272 FEC 519935 (2 pins required per component) FEC 9753893 FEC 9406379 FEC 7569572 FEC 1318243 FEC 1318244 FEC 1097173 FEC 1177875 FEC 9729100 FEC 224959 FEC 1160225 FEC 1160251 EVAL-ADM1186 Qty 1 Reference Designator R4 Description 19.1 kΩ, ±0.1%, 0805 resistor 1 R6 30.1 kΩ, ±0.1%, 0805 resistor 1 R7 100 kΩ, ±0.1%, 0805 resistor 1 R8 73.2 kΩ, ±0.1%, 0805 resistor 1 1 18 18 kΩ, ±1%, 0805 resistor 18 kΩ, ±1%, 0805 resistor 1 kΩ, 0.1 W, ±2%, 0805 resistor 2 1 1 1 1 7 1 1 7 1 1 6 5 R9 R10 R11, R14 to R16, R19, R20, R23, R24, R28 to R30, R32, R36, R38, R39, R47, R48, R50 R12, R13 R17 R18 R21 R22 R25, R31, R33, R34, R35, R37, R40 R26 R27 R41 to R45, R49, R53 R51 S1 S2 to S7 S8 to S12 56 kΩ, ±1%, 0805 resistor 15 kΩ, ±1%, 0805 resistor 33 kΩ, ±1%, 0805 resistor 10 kΩ, ±1%, 0805 resistor 15 kΩ, ±1%, 0805 resistor 100 kΩ, 0.1 W, ±2%, 0805 resistor 5.6 kΩ, ±1%,0805 resistor 6.8 kΩ, ±1%, 0805 resistor 0 Ω, 0805 resistor 12 kΩ, 0.1 W, ±2%, 0805 resistor Slide switch (extended top actuator) Slide switch 4-way switch 1 S13 Push button switch 1 U1 ADM1186-1, 20-lead QSOP 5 U2 to U6 ADP1712-ADJ, 5-lead SOT-23, adjustable LDO 1 U7 1 U9 1 U8 3-terminal, 0.1 A, 5 V positive voltage regulator, 78L05, TO-92 20-pin QSOP socket; fitted only if U1 is not present 74LVC3G34, VSSOP8 4 VR1 to VR4 5 kΩ trimmer potentiometer 1 VR5 Trimmer potentiometer Rev. 0 | Page 21 of 24 Supplier/Number Welwyn PCF0805R19K1BT1 Welwyn PCF0805R 30K1BI.T1 Welwyn PCF0805R 100KBI.T1 Welwyn PCF0805R73K2BT1 Phycomp 232273461803 Phycomp 232273461803 Welwyn WCR 0805 1K G Part Number FEC 1353228 Phycomp 232273465603 Phycomp 232273461503 Phycomp 232273463303 Phycomp 232273461003 Phycomp 232273461503 Welwyn WCR 0805 100K G Phycomp 232273465602 Phycomp 232273466802 Welwyn WCR 0805 0R0 G Welwyn WCR 0805 12K G Alps STSSS9221 Alps STSSS9121 Omron Electronic Components A6S-4101 Omron Electronic Components B3S-1000 Analog Devices, Inc. ADM1186-1ARQZ Analog Devices, Inc. ADP1712AUJZ-R7 ON Semiconductor MC78L05ACPG Enplas OTS-20(28)-0.63502-00 Texas Instruments SN74LVC3G34DCUR Vishay Spectrol 63MT607-502 Vishay Spectrol FEC 9237844 FEC 9237771 FEC 9237810 FEC 9237755 FEC 9237771 FEC 1099816 FEC 9237712 FEC 9237739 FEC 1099786 FEC 1100321 FEC 1123878 FEC 1123875 FEC 9901868 FEC 1160234 FEC 1160261 FEC 1353300 FEC 9237780 FEC 9237780 FEC 1099800 FEC 177807 ADM1186-1ARQZ ADP1712AUJZ-R7 FEC 9666125 OTS-20(28)-0.63502-00 FEC 1287565 FEC 9608222 Option only, not fitted EVAL-ADM1186 Table 9. Bill Of Materials for the EVAL-ADM1186-1MBZ Qty 5 1 1 2 3 2 1 2 1 1 1 7 1 1 Reference Designator C1, C3 to C6 C2 C7 J1, J3 J2, J4, J5 R1, R7 R2 R3, R5 R4 R6 R8 R9 to R12, R13 to R15 SW1 U1 Description 1 μF, 10 V, ±10%, 0805 capacitor 0.1 μF, ±10%, 0805 capacitor 47 nF, 50 V, ±10%, 0805 capacitor 8-pin header, 100 mil centers 8-pin header, 100 mil centers 100 kΩ, ±0.1%, 0805 resistor 23.7 kΩ, ±0.1%, 0805 resistor 56.2 kΩ, ±0.1%, 0805 resistor 19.1 kΩ, ±0.1%, 0805 resistor 30.1 kΩ, ±0.1%, 0805 resistor 73.2 kΩ, ±0.1%, 0805 resistor 100 kΩ, 0.1 W, ±2%, 0805 resistor 6-way DIL switch ADM1186-1, 20-lead QSOP, 4-channel up/down sequencer and monitor Rev. 0 | Page 22 of 24 Supplier/Number AVX 0805ZC105KAT2A Kemet C0805F104K5RAC Multicomp U0805R473KCT Harwin D01-9922046 No component fitted Welwyn PCF0805R 100KBI.T1 Welwyn PCF0805R 23K7BI.T1 Welwyn PCF0805R 56K2BI.T1 Welwyn PCF0805R-19K1BT1 Welwyn PCF0805R 30K1BI.T1 Welwyn PCF0805R-73K2BT1 Welwyn WCR 0805 100K G Multicomp MCDM(R)-06-T Analog Devices, Inc. ADM1186-1ARQZ Part Number FEC 1327700 FEC 1288272 FEC 9406379 FEC 1022217 N/A FEC 1160261 FEC 1160225 FEC 1160251 FEC 1353228 FEC 1160234 FEC 1353300 FEC 1099816 FEC 9472045 ADM1186-1ARQZ EVAL-ADM1186 Table 10. Bill of Materials for the ADM1186-2EBZ 1 4 2 4 Reference Designator 1V5, 1V8, 2V5, 3V3, 3V3B, 5V0B, BLNK, DLY2 to DLY4, GND1, GND2, OUT1 to OUT4, PWRGD, UP/DOWN, VIN1 to VIN4 C1, C17, C27, C30, C43 C3, C4, C6, C10, C11, C13, C16, C18 to C20 C12 C14, C24, C31, C38 C15, C34 C21, C35, C36, C41 4 3 2 C22, C25, C26, C29 C23, C28, C37 C32, C33 1 1 7 1 1 1 C39 C40 D1 to D7 D10 J1 J3 0.1 μF, ±10%, 0805 capacitor 10 nF, ±10%, 0805 capacitor 10 μF, 10%, RTAJ_B, 16 V tantalum capacitor 47 nF, ±10%, 50 V, 0805 capacitor 220 nF, ±10%, 25 V, 0805 capacitor Green 0805 chip LED High speed switching diode, SOD-80C 2-pin terminal block (5 mm pitch) 2.1 mm dc barrel power connector 1 J4 3-pin SIL header and shorting link 6 Q1 to Q5, Q8 1 R1 BC850B, SOT-23, general-purpose NPN transistor 100 kΩ, ±0.1%, 0805 resistor 1 R2 23.7 kΩ, ±0.1%, 0805 resistor 2 R3, R5 56.2 kΩ, ±0.1%, 0805 resistor 1 R4 19.1 kΩ, ±0.1%, 0805 resistor 1 R6 30.1 kΩ, ±0.1%, 0805 resistor 1 R7 100 kΩ, ±0.1%, 0805 resistor 1 R8 73.2 kΩ, ±0.1%, 0805 resistor 2 14 R9, R10 R11, R14 to R16, R19, R20, R23, R24, R28, R29, R30, R38, R47, R50 R12, R13 R17, R22 R18 R21 R25, R33, R34, R35, R37 R26 Qty 22 5 10 2 2 1 1 5 1 Description Red testpoint Supplier/ Number Vero 20-313137 Part Number FEC 8731144 1 μF, ±10%, 10 V, 0805 capacitor 2.2 μF, ±10%, 10 V, X7R, 0805 capacitor AVX 0805ZC105KAT2A Phycomp 222224015667 FEC 1327700 FEC 9402152 10 nF, ±10%, 0805 capacitor User defined, 0805 capacitor 0.1 μF, ±10%, 0805 capacitor Single pin socket Multicomp U0805R103KCT Kemet C0805F104K5RAC Multicomp U0805R103KCT Kemet B45196H3106K209 FEC 9406352 Option only, not fitted FEC 1288272 FEC 519935 (2 pins required per component) FEC 1288272 FEC 9406352 FEC 9753893 Kemet C0805F104K5RAC Harwin H3153F01 Multicomp U0805R473KCT AVX 08053C224KAZ1A Kingsbright KP-2012SGC NXP BAS32L Lumberg KRM 02 Cliff Electronic Components DC10A Harwin M20-9990345 and M7567-05 NXP BC850C FEC 9406379 FEC 7569572 FEC 1318243 FEC 1097173 FEC 1177875 FEC 224-959 FEC 1022248 and 150410 FEC 1081241 FEC 1160261 18 kΩ, ±1%, 0805 resistor 1 kΩ, ±2%, 0.1 W, 0805 resistor Welwyn PCF0805R 100KBI.T1 Welwyn PCF0805R 23K7BI.T1 Welwyn PCF0805R 56K2BI.T1 Welwyn PCF0805R19K1BT1 Welwyn PCF0805R 30K1BI.T1 Welwyn PCF0805R 100KBI.T1 Welwyn PCF0805R73K2BT1 Phycomp 232273461803 Welwyn WCR 0805 1K G 56 kΩ, ±1%, 0805 resistor 15 kΩ, ±1%, 0805 resistor 33 kΩ, ±1%, 0805 resistor 10 kΩ, ±1%, 0805 resistor 100 kΩ, ±2%, 0805 resistor 5.6 kΩ, ±1%, 0805 resistor Phycomp 232273465603 Phycomp 232273461503 Phycomp 232273463303 Phycomp 232273461003 Welwyn WCR 0805 100K G Phycomp 232273465602 FEC 9237844 FEC 9237771 FEC 9237810 FEC 9237755 FEC 1099816 FEC 9237712 Rev. 0 | Page 23 of 24 FEC 1160225 FEC 1160251 FEC 1353228 FEC 1160234 FEC 1160261 FEC 1353300 FEC 9237780 FEC 1099800 EVAL-ADM1186 Qty 1 5 1 6 4 Reference Designator R27 R41 to R43, R49, R53 R51 S1, S2, S4 to S7 S9 to S12 Description 6.8 kΩ, ±1%, 0805 resistor 0 Ω, 0805 resistor 12 kΩ, ±2%, 0.1 W, 0805, resistor SPDT slide switch 4-way switch 4 VR1 to VR4 Trimmer potentiometer 1 1 VR5 U1 Trimmer potentiometer ADM1186-2, QSOP-16, top layer 5 U2 to U6 ADP1712-ADJ, SOT23-5, adjustable LDO 1 U7 1 U8 78L05, TO-92A, 3-terminal 0.1 A, 5 V positive voltage regulator 74LVC3G34, VSSOP8, , top layer 1 U9 16-pin QSOP socket; fitted only if U1 not present Supplier/ Number Phycomp 232273466802 Welwyn WCR 0805 0R0 G Welwyn WCR 0805 12K G Alps STSSS9121 Omron Electronic Components A6S-4101 Vishay Spectrol 63M-T607502 Vishay Spectrol Analog Devices, Inc. ADM1186-2ARQZ Analog Devices, Inc. ADP1712AUJZ-R7 ON Semiconductor MC78L05ACPG Texas Instruments SN74LVC3G34DCUR Enplas OTS-16(28)-0.63502-00 Part Number FEC 9237739 FEC 1099786 FEC 1100321 FEC 1123875 FEC 9901868 FEC 9608222 Option only, not fitted ADM1186-2ARQZ ADP1712AUJZ-R7 FEC 9666125 FEC 1287565 OTS-16(28)-0.635-02-00 Table 11. Analog Bill Of Materials for the EVAL-ADM1186-2MBZ Qty 4 1 1 2 3 2 1 2 1 1 1 5 1 1 Reference Designator C1, C4 to C6 C2 C7 J1, J3 J2, J4, J5 R1, R7 R2 R3, R5 R4 R6 R8 R9 to R12, R14 SW1 U1 Description 1 μF, 10 V, ±10%, 0805 capacitor 0.1 μF, ±10%, 0805 capacitor 47 nF, 50 V, ±10%, 0805 capacitor 8-pin header, 100 mil centers 8-pin header, 100 mil centers 100 kΩ, ±0.1%, 0805 capacitor 23.7 kΩ, ±0.1%, 0805 capacitor 56.2 kΩ, ±0.1%, 0805 capacitor 19.1 kΩ, ±0.1%, 0805 capacitor 30.1 kΩ, ±0.1%, 0805 capacitor 73.2 kΩ, ±0.1%, 0805 capacitor 100 kΩ, ±2%, 0.1 W, 0805 capacitor 4-way switch ADM1186-2, 16-lead QSOP, 4-channel up/down sequencer and monitor ORDERING GUIDE Model EVAL-ADM1186-1EBZ1 EVAL-ADM1186-1MBZ1 EVAL-ADM1186-2EBZ1 EVAL-ADM1186-2MBZ1 1 Supplier/Manufacturer AVX 0805ZC105KAT2A Kemet C0805F104K5RAC Multicomp U0805R473KCT Harwin D01-9922046 No component fitted Welwyn PCF0805R 100KBI.T1 Welwyn PCF0805R 23K7BI.T1 Welwyn PCF0805R 56K2BI.T1 Welwyn PCF0805R-19K1BT1 Welwyn PCF0805R 30K1BI.T1 Welwyn PCF0805R-73K2BT1 Welwyn WCR 0805 100K G Omron Electronic Components A6S-4101 Analog Devices, Inc. ESD CAUTION Description Evaluation Board for ADM1186-1 Micro-Evaluation Board for ADM1186-1 Evaluation Board for ADM1186-2 Micro-Evaluation Board for ADM1186-2 Z = RoHS Compilant Part. ©2008 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. EB07620-0-9/08(0) Rev. 0 | Page 24 of 24 Part Number FEC 1327700 FEC 1288272 FEC 9406379 FEC 1022217 N/A FEC 1160261 FEC 1160225 FEC 1160251 FEC 1353228 FEC 1160234 FEC 1353300 FEC 1099816 FEC 9901868 ADM1186-2ARQZ