MAX9611PMB1 Peripheral Module
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- Barbra Heath
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1 9-68; Rev 0; 5/ General Description The MAX96PMB peripheral module provides the necessary hardware to interface the MAX96 currentsense amplifier with -bit ADC and op amp, along with the MAX580 8-bit DAC, to any system that utilizes PmodK-compatible expansion ports configurable for I C communication. The IC is configured with an external p-channel FET and a current-sense resistor to form a current-limiting circuit capable of handling currents up to A. An 8-bit DAC (U) is used to set the currentlimit point programmatically by the host through the I C bus. In addition to providing a programmable currentlimit function, the ADC within the IC measures the load current/voltage and the set-point voltage that can be read by the host through the I C bus. Refer to the MAX96 IC data sheet for detailed information regarding operation of the IC. S Programmable Current Limit Up to A S Two Current Ranges (Jumper Selectable) Features S Measure and Read Back Load Current, Load Voltage, and Set Point S Power Source Up to 0V S Jumper-Selectable I C Address Setting for the MAX96 S 6-Pin Pmod-Compatible Connector (I C) S Secondary Header Allows Daisy-Chaining of Additional Modules on the I C Bus S Example Software Written in C for Portability S RoHS Compliant S Proven PCB Layout S Fully Assembled and Tested Ordering Information appears at end of data sheet. Pmod is a trademark of Digilent Inc. Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim Direct at , or visit Maxim s website at
2 Component List DESIGNATION QTY DESCRIPTION C, C, C C4 C5 C6 C7 F 0.FF Q0%, 6V X7R ceramic capacitors (060) Murata GRM88R7C04KA0D 4.7FF Q0%, 0V X5R ceramic capacitor (060) TDK C0X5RA475K/0.85 0FF Q0%, 0V X5R ceramic capacitor (060) TDK C0X5RA06K/.5 FF Q0%, 0V X7R ceramic capacitor (060) TDK C608X7RA05K 0.0FF Q0%, 6V X7R ceramic capacitor (060) Murata GRM88R7C0KA0D 4.7FF EMI filter (-terminal capacitor) Murata NFMPC475BAD J 6-pin right-angle male header J 8-pin ( x 4) straight male header J, JP, JP, JP 4 -pin straight male headers DESIGNATION QTY DESCRIPTION Q.A, 0V p-channel MOSFET ( SOT) Vishay Si0CDS R R kI Q% resistors (060) R6, R7 50I Q5% resistors (060) R8 7.5kI Q% resistor (06) R9 845I Q% resistor (06) R0 4.0kI Q% resistor (060) R 40I Q% resistor (060) R 8.06kI Q% resistor (060) R 0.I Q%, W current-sense resistor (5) Stackpole CSRN5FKR00 R4, R5 0kI Q5% resistors (060) U U Low-cost, 8-bit DAC (5 SOT) Maxim MAX580MEUK+ Current-sense amplifier with -bit ADC (0 FMAX M ) Maxim MAX96AUB+ Shorting jumpers PCB: EPCB96PM Component Suppliers SUPPLIER PHONE WEBSITE Murata Electronics North America, Inc TDK Corp Vishay Note: Indicate that you are using the MAX96PMB when contacting these component suppliers. Detailed Description I C Interface The MAX96PMB peripheral module can interface to the host in one of two ways. It can plug directly into a Pmod-compatible port (configured for I C) through connector J, or in this case, other I C boards can attach to the same I C bus through connector J. I C Interface (Daisy-Chaining Modules) Alternatively, the peripheral module can connect to other I C-based Pmod modules using a 4-conductor ribbon cable connecting to the J connector. In this situation, pins -4 and 5-8 on J provide two connections to the I C bus, allowing the module to be inserted into an I C bus daisy-chain. Table. Connector J (IC Communication) PIN SIGNAL DESCRIPTION N.C. Not connected N.C. Not connected SCL I C serial clock 4 SDA I C serial data 5 Ground 6 VCC Power supply Connector J provides connection of the module to the Pmod host. The pin assignments and functions adhere to the Pmod standard recommended by Digilent. See Table. µmax is a registered trademark of Maxim Integrated Products, Inc. Maxim Integrated Products
3 Connector J allows the module to be connected through a daisy-chain from another I C module and/or provide I C and power connections to other I C modules on the same bus. See Table. I C Addressing Options Both the MAX580M and MAX96 reside on the I C bus. The MAX580M has a fixed I C slave address of 0x6 (other versions of the MAX580 are available with different I C slave addresses). The I C slave address for the MAX96 can be one of nine different values depending on the settings on jumpers JP and JP. Table lists the settings of those jumpers and the corresponding values of the slave read and write address. Refer to the MAX96/MAX96 IC data sheet for more information. Table. Connector J (IC Expansion) PIN SIGNAL DESCRIPTION SCL I C serial clock SDA I C serial data Ground 4 VCC Power supply 5 SCL I C serial clock 6 SDA I C serial data 7 Ground 8 VCC Power supply Table. IC Slave Addresses (MAX96) JP (A0) JP (A) DEVICE ADDRESS (hex) WRITE READ - - 0xE0 0xE - - 0xE4 0xE5 - Open 0xE6 0xE xF0 0xF - - 0xF4 0xF5 - Open 0xF6 0xF7 Open - 0xF8 0xF9 Open - 0xFC 0xFD Open Open 0xFE 0xFF Connecting an External Power Supply and Load The peripheral module provides high-side current limiting for an external power supply and load. The supply and load should be connected to the peripheral module, as shown in Figure. Although the IC is capable of operation up to 60V, the external supply should not exceed 0V due to voltage limitations of the Si0 pfet. While the pass components are rated to.7a, operation above A may not yield reliable results due to thermal limitations. Reliable operation of this circuit above A should be possible in the user s application if additional surface/heatsink area for both the Si0 pfet and the 0.I sense resistor is provided. The J connector provides for the attachment of an external power supply and load. See Table 4. Table 4. Connector J (External Power and Load) PIN SIGNAL DESCRIPTION Power source Load Ground MAX96PMB CONTROL SENSE This pin should be attached to the positive terminal of the external power supply. The external power source should be greater than 0V and less than 0V. This pin should be attached to a groundreferenced load. External ground. This ground connection is referenced to the module ground on pin 5 of connector J. J V+ LD A MAX LOAD 0V DC MAX Figure. Connection of an External Power Supply and Load Maxim Integrated Products
4 Current Limit The point at which current limiting begins is determined by the voltage at pin 4 on the MAX96 (V SET ). This voltage is set by the output of the DAC (MAX580) and the setting of the shunt on JP, which selects either V DAC or V DAC /0. The nominal.00v output of the DAC is divided to.6v full scale by the divider formed by R and R8 + R9. The lower tap of that divider (R + R8 and R9) provides 0.6V full scale. The position of the shunt on JP determines which of the two voltages is connected to V SET on the MAX96. With the shunt connected between JP- and JP-, the higher voltage (V DAC ) is connected to V SET. This setting allows full-scale current limit at.56a with 0mA steps (Caution: Although software settings do not prohibit it, the circuit should not be operated above A output current as overheating and unreliable operation could result). When the shunt is connected between JP- and JP-, the full-scale current is 56mA with ma steps. Important: The total power dissipation for the pass FET (Q) should not exceed.5w. This can easily be exceeded with even moderate output current if the load voltage is high and the load resistance is low. The JP connector determines the current-limit range and step size. Note: Do not operate the board without a shunt in place, in one of these two positions. See Table 5. Software and FPGA Code Example software and drivers are available that execute directly without modification on several FPGA development boards that support an integrated or synthesized microprocessor. These boards include the Digilent Nexys, Avnet LX9, and Avnet ZEDBoard, although other platforms can be added over time. Maxim provides complete Xilinx ISE projects containing HDL, Platform Studio, and SDK projects. In addition, a synthesized bit stream, ready for FPGA download, is provided for the demonstration application. The software project (for the SDK) contains several source files intended to accelerate customer evaluation and design. These include a base application (maximmodules.c) that demonstrates module functionality and uses an API interface (maximdevicespecific Utilities.c) to set and access Maxim device functions within a specific module. The source code is written in standard ANSI C format, and all API documentation including theory/operation, register description, and function prototypes are documented in the API interface file (maximdevicespecificutilities.h &.c). The complete software kit is available for download at Quick start instructions are also available as a separate document. Table 5. Jumper JP (Current-Limit Range) SHUNT POSITION V SET FULL-SCALE CURRENT LIMIT (A) CURRENT- LIMIT STEP SIZE (ma) - V DAC V DAC / Maxim Integrated Products 4
5 OUT RS+ RS- SET 4 5 VCC 0 C4 4.7uF VCC VCC U SDA 7 SDA SCL 6 SCL 9 8 A0 A VCC MAX96 R 40 % R 8.06k % R0 4.0k S G D Sense Resistor Q Si0CDS R 0.% Watt OUT R 4.7k % R8 7.5k % VDD R6 50 R IC Expansion Connector VCC J 6 J C 0.uF VCC R4 4.7k VCC R5 4.7k JP JP R4 0k R5 0k VCC SCL SDA F EMIFILT VCC C7 0.0uF VSET C 0.uF C 0.uF VCC SDA 4 SCL 5 JP VCC U SDA SCL C6 uf VDAC VDAC0 MAX580 J VDAC VDAC0 R9 845 % Power source Load Ground R 4.7k IC Address Selection VCC R 4.7k C5 0uF Figure. MAX96PMB Peripheral Module Schematic Maxim Integrated Products 5
6 Figure. MAX96PMB Peripheral Module Component Placement Guide Component Side Figure 4. MAX96PMB Peripheral Module PCB Layout Component Side Figure 5. MAX96PMB Peripheral Module PCB Layout Inner Layer (Ground) Maxim Integrated Products 6
7 Figure 6. MAX96PMB Peripheral Module PCB Layout Inner Layer (Power) Figure 7. MAX96PMB Peripheral Module PCB Layout Solder Side Figure 8. MAX96PMB Peripheral Module Component Placement Guide Solder Side Maxim Integrated Products 7
8 Ordering Information PART MAX96PMB# #Denotes RoHS compliant. TYPE Peripheral Module Maxim Integrated Products 8
9 REVISION NUMBER REVISION DATE DESCRIPTION Revision History PAGES CHANGED 0 5/ Initial release Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products, 0 San Gabriel Drive, Sunnyvale, CA Maxim Integrated Products Maxim is a registered trademark of Maxim Integrated Products, Inc.
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More information+Denotes lead-free and RoHS-compliant.
19-4062; Rev 0; 2/08 MAX5432 Evaluation Kit General Description The MAX5432 evaluation kit (EV kit) is an assembled and tested printed-circuit board (PCB) that evaluates the MAX5432 IC. The MAX5432 is
More informationMaxim Integrated Products 1
19-3093; Rev 0; 12/03 MAX3942 Evaluation Kit General Description The MAX3942 evaluation kit (EV kit) is an assembled demonstration board that provides electrical evaluation of the MAX3942 10.7Gbps modulator
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9-2479; Rev 0; 6/02 MAX28 Evaluation Kit General Description The MAX28 evaluation kit (EV kit) is designed to evaluate the MAX28. The MAX28 is a 2-bit, 2-channel (six differential-channel) ADC with a 2-wire
More informationCLK1, CLKIN, CLKOUT, OUTA, OUTB
9-82; Rev 2; 5/ Evaluation Kit General Description The evaluation kit (EV kit) is a fully assembled and tested circuit board that contains all the components necessary for evaluating the. The is a dual,0-bit,
More informationJU1 JU6, JU15 JU20. Maxim Integrated Products 1
9-9; Rev 0; /0 MAX9 Evaluation Kit General Description The MAX9 evaluation kit (EV kit) contains a flowthrough low-voltage differential signaling (LVDS) quad differential line driver (MAX9) and receiver
More information+Denotes lead-free and RoHS compliant.
19-4258; Rev 0; 8/08 General Description The MAX9591 evaluation kit (EV kit) demonstrates the MAX9591 reference-voltage generator for gamma correction in TFT-LCD panels, such as those found in highresolution
More informationMAX9729 Evaluation Kit/Evaluation System
19-0958; Rev 0; 8/07 MAX9729 Evaluation Kit/Evaluation System General Description The MAX9729 evaluation kit (EV kit) is a fully assembled and tested printed-circuit board (PCB) that evaluates the MAX9729
More informationMAX17105 Evaluation Kit/Evaluation System
19-4589; Rev 0; 4/09 MAX17105 Evaluation Kit/Evaluation System General Description The MAX17105 evaluation system (EV system) consists of the MAX17105 evaluation kit (EV kit) and the Maxim CMAXQUSB+ command
More informationMaxim Integrated Products 1
19-1883; Rev 1; 2/07 MAX1799 Evaluation System/ General Description The MAX1799 evaluation system (EV system) consists of a MAX1799 evaluation kit (EV kit) and a companion Maxim CMAXQUSB board. The MAX1799
More informationMAX14521E Evaluation Kit. Evaluates: MAX14521E
19-4422 Rev 0; 1/09 General Description The MAX14521E evaluation kit (EV kit) provides a proven design to evaluate the MAX14521E quad, highvoltage EL lamp drivers. The EV kit also includes Windows 2000/XP-
More informationMAX7311 Evaluation Kit. Evaluates: MAX7311
19-4151; Rev 0; 5/08 General Description The MAX7311 evaluation kit (EV kit) provides a proven design to evaluate the MAX7311 I 2 C-compatible 16-bit I/O port expander, with each port configurable as input
More informationMAX6651 Evaluation Kit/Evaluation System
19-1980; Rev 1; 5/07 MAX6651 Evaluation Kit/Evaluation System General Description The MAX6651 evaluation kit (EV kit) is an assembled and tested printed-circuit board (PCB) that demonstrates the MAX6651
More informationMaxim Integrated Products 1
9-005; Rev ; /06 General Description The MAX557 evaluation kit (EV kit) is a fully assembled and tested surface-mount circuit board that evaluates the MAX557 digital potentiometer. Included software generates
More informationEvaluate: MAX14589E/MAX14594E/ MAX MAX14589E/MAX14594E/ MAX14689 Evaluation Kits. Features and Benefits. General Description.
Evaluation Kits General Description The MAX14589E/MAX14594E/ evaluation kits (EV kits) are fully assembled and tested circuit boards that demonstrate the functionality of the MAX14589E, MAX14594E, and
More informationMAX6692 Evaluation System/Evaluation Kit
19-2707; Rev 0; 10/02 MAX6692 Evaluation System/Evaluation Kit General Description The MAX6692 evaluation system (EV system) consists of a MAX6692 evaluation kit (EV kit) and a companion Maxim SMBus interface
More information+Denotes lead(pb)-free and RoHS compliant. R1, R2, R3, R103
19-4544; Rev 0; 4/09 MAX6662 Evaluation Kit General Description The MAX6662 evaluation kit (EV kit) provides a proven design to evaluate the MAX6662 12-bit + sign temperature sensor with SPI -compatible
More informationS Convenient USB Interface. S Single-Supply Operation through the USB S Option for External Power Supply for the Boost Regulator
19-5507; Rev 0; 9/10 MAX11835 Evaluation System General Description The MAX11835 evaluation system (EV system) demonstrates a complete solution to drive single and multilayer piezo actuators to create
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9-05; Rev 0; 5/0 General Description The MAX6654 evaluation system (EV system) consists of a MAX6654 evaluation kit (EV kit) and a companion system management bus (SMBus ) interface board. The MAX6654
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9-904; Rev 0; 7/0 MAX406 Evaluation Kit General Description The MAX406 evaluation kit (EV kit) is a fully assembled and tested circuit board that uses the MAX406 lownoise microphone amplifier IC designed
More informationEvaluates: MAX14571 MAX MAX14571 Evaluation Kit. General Description. Features. MAX14571 EV Kit Photo
General Description The MAX14571 evaluation kit (EV kit) demonstrates the MAX14571 adjustable overvoltage and overcurrent protector in a 14-pin TSSOP surface-mount package with an exposed pad. The EV kit
More informationMAX15501 Evaluation Kit Evaluates: MAX15500/MAX15501
General Description The MAX15501 evaluation kit (EV kit) provides a proven design to evaluate the MAX15501 analog output conditioner that provides a programmable current up to Q24mA, or a voltage up to
More informationMAX3535E Evaluation Kit. Evaluates: MAX3535E
9-076; Rev 0; /06 MX55E Evaluation Kit General Description The MX55E evaluation kit (EV kit) is a fully assembled and tested PC that contains a 500V RMS isolated RS-485/RS-4 transceiver with ESD protection.
More informationMAX1662 Evaluation Kit/Evaluation System
19-1306; Rev 0; 3/98 MAX1662 Evaluation Kit/Evaluation System General Description The MAX1662 evaluation system (EV system) consists of a MAX1662 evaluation kit (EV kit) and a companion Maxim SMBus Interface
More informationMAX8858 Evaluation Kit. Evaluates: MAX8858
19-4449; Rev 0; 2/09 General Description The MAX8858 evaluation kit (EV kit) is a fully assembled and tested PCB for evaluating the MAX8858 powermanagement IC (PMIC). The MAX8858 PMIC provides a compact
More informationEvaluates: MAX98357A/MAX98357B (TQFN) MAX98357 Evaluation System (TQFN)
General Description The MAX98357 development board (DEV board) is a fully assembled and tested PCB that evaluates the MAX98357 I2S digital input Class D power amplifier. The DEV board operates from a single
More informationMAX1587AEVKIT. Maxim Integrated Products 1
19-3137; Rev 1; 2/07 General Description The MAX1587A evaluation system (EV system) consists of a MAX1587A evaluation kit (EV kit) and a companion Maxim CMAXQUSB board. The MAX1587A evaluation kit (EV
More informationMAX6653 Evaluation System/Evaluation Kit
9-908; Rev 0; 7/0 MAX665 Evaluation System/Evaluation Kit General Description The MAX665 evaluation system (EV system) consists of a MAX665 evaluation kit (EV kit) and a companion Maxim system management
More informationEvaluates: MAX MAX20326 Evaluation Kit. General Description. Quick Start. Features. EV Kit Contents. Required Equipment.
General Description The MAX20326 evaluation kit (EV kit) provides a convenient way to evaluate the MAX20326 dual precision bus accelerator IC. The EV kit breaks out the pins of the IC to test points enabling
More informationEvaluates: MAX MAX20310 Evaluation Kit. Quick Start. General Description. Features. Detailed Description of Hardware. Required Equipment
General Description The MAX20310 evaluation kit (EV kit) is a fully assembled and tested circuit for evaluating the MAX20310 medical wearable, power-management solution with I2C capability for low-power
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