19-5174; Rev 0; 3/10 MAX9634 Evaluation Kit The MAX9634 evaluation kit (EV kit) provides a proven design to evaluate the MAX9634 high-side current-sense amplifier, which offers precision accuracy specifications of VOS less than 250V (max) and gain error less than 0.5% (max). This EV kit demonstrates the MAX9634 in a tiny 1mm x 1mm x 0.6mm, 4-bump UCSPTM package. The MAX9634 is also available in a 5-pin SOT23, but that package is not compatible with this EV kit. The EV kit PCB comes with a MAX9634FERS+ installed, which is the 50V/ V gain version. Contact the factory for free samples of the pin-compatible MAX9634TERS+, MAX9634HERS+, and MAX9634WERS+, which are 25V/ V, 100V/ V, and 200V/V gain versions, respectively. Features S Precision Real-Time Current Monitoring S 1.6V to 28V Input Common-Mode Range S Proven PCB Layout S Fully Assembled and Tested Ordering Information PART TYPE MAX9634EVKIT+ EV Kit +Denotes lead(Pb)-free and RoHS compliant. Component List DESIGNATION QTY DESCRIPTION C1 1 1FF Q10%, 50V X7R ceramic capacitor (1206) Murata GRM31MR71H105KA C2 0 Not installed, ceramic capacitor (0603) R1 1 0.05I Q0.5%, 0.5W 4-terminal current-sense resistor (1206) Ohmite LVK12R050DER TP1, TP2 2 Test points U1 1 Precision current-sense amplifier (4 UCSP) Maxim MAX9634FERS+ (Gain: 50V/V) (Top Mark: +ABY) -- 1 PCB: MAX9634 EVALUATION KIT+ Component Suppliers SUPPLIER Murata Electronics North America Inc. PHONE 770-436-1300 WEBSITE www.murata-northamerica.com Ohmite Mfg. Co. 866-964-6483 www.ohmite.com Note: Indicate that you are using the MAX9634 when contacting these component suppliers. UCSP is a trademark of Maxim Integrated Products, Inc. ________________________________________________________________ Maxim Integrated Products 1 For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim's website at www.maxim-ic.com. Evaluates: MAX9634 General Description Evaluates: MAX9634 MAX9634 Evaluation Kit * MAX9634 EV kit Quick Start Detailed Description of Hardware Recommended Equipment The MAX9634 EV kit provides a proven design to evaluate the MAX9634 high-side current-sense amplifier, which offers precision accuracy specifications of VOS less than 250V (max) and gain error less than 0.5% (max). * 3.6V, 1A DC power supply * An electronic load capable of sinking 800mA (e.g., HP 6060B) * Two digital voltmeters Procedure The MAX9634 EV kit is fully assembled and tested. Follow the steps below to verify board operation. Caution: Do not turn on the power supply or electronic load until all connections are completed. 1) Connect the positive terminal of the 3.6V supply to the VBATT pad and the negative terminal of the supply to the GND pad closest to the VBATT pad. 2) Set the electronic load to sink 800mA. 3) Connect the electronic load's positive terminal to the LOAD pad and the negative terminal to the GND pad closest to the bottom of the EV kit. 4) Connect the first voltmeter across test points TP1 and TP2 to measure VSENSE. 5) Connect the second voltmeter across the VOUT pad and the closest GND pad. 6) Turn on the power supply. 7) Turn on the electronic load. 8) Verify that the first voltmeter reading is approximately 40mV and the second voltmeter is approximately 2V. 9) Adjust the current load from 800mA to 0A and verify that the reading of the second voltmeter is approximately 50 times the reading of the first voltmeter. Applying the VRS+ Supply and the Load The EV kit is installed with a MAX9634FERS+, which has a gain of 50V/ V. The current-sense resistor (RSENSE) value is 0.05I with Q0.5% tolerance. The voltage at the VOUT pad is given by: VOUT = (ILOAD x RSENSE + VOS) x AV where VOS is the offset, AV is the gain, and ILOAD is the current load applied to the device. Normal operating VRS+ and VRS- range is 1.6V to 28V. Measuring the Load Current The load current is measured as a voltage drop (VSENSE) across an external sense resistor. This voltage is then amplified by the current-sense amplifier and presented at the VOUT pad. Like all differential amplifiers, the output voltage has two components of error (an offset error and a gain error). The offset error affects accuracy at low currents and the gain error affects accuracy at large currents--both errors affect accuracy at intermediate currents. By minimizing both offset and gain errors, accuracy is optimized over a wide dynamic range. Evaluating Other Gain Versions The MAX9634 EV kit can also be used to evaluate other gain versions of the MAX9634 (25V/V, 100V/V, or 200V/ V with a T, H, or W suffix, respectively). Replace U1 on the EV kit with a different version of the MAX9634 IC. Note: If the voltmeter has a 10M input resistance, the output voltage reads 0.1% low. 2 _______________________________________________________________________________________ MAX9634 Evaluation Kit Evaluates: MAX9634 Figure 1. MAX9634 EV Kit Schematic _______________________________________________________________________________________ 3 Evaluates: MAX9634 MAX9634 Evaluation Kit 1.0" Figure 2. MAX9634 EV Kit Component Placement Guide-- Component Side 1.0" Figure 3. MAX9634 EV Kit PCB Layout--Component Side 1.0" Figure 4. MAX9634 EV Kit PCB Layout--Solder Side 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. 4 Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 (c) 2010 Maxim Integrated Products Maxim is a registered trademark of Maxim Integrated Products, Inc.