Texas Instruments HPA070 user manual

User manual for the device Texas Instruments HPA070

Device: Texas Instruments HPA070
Category: Power Supply
Manufacturer: Texas Instruments
Size: 0.4 MB
Added : 5/28/2013
Number of pages: 17
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Abstracts of contents
Summary of the content on the page No. 1

User’s Guide
TPS40055-Based Design Converts
12-V Bus to 1.8 V at 15 A (HPA070)
User’s Guide
1

Summary of the content on the page No. 2

EVM IMPORTANT NOTICE Texas Instruments (TI) provides the enclosed product(s) under the following conditions: This evaluation kit being sold by TI is intended for use for ENGINEERING DEVELOPMENT OR EVALUATION PURPOSES ONLY and is not considered by TI to be fit for commercial use. As such, the goods being provided may not be complete in terms of required design-, marketing-, and/or manufacturing-related protective considerations, including product safety measures typically found in the end product

Summary of the content on the page No. 3

DYNAMIC WARNINGS AND RESTRICTIONS It is important to operate this EVM within the input voltage range of 0 V to 14 V . DC DC Exceeding the specified input range may cause unexpected operation and/or irreversible damage to the EVM. If there are questions concerning the input range, please contact a TI field representative prior to connecting the input power. Applying loads outside of the specified output range may result in unintended operation and/or possible permanent damage to the EVM. Please c

Summary of the content on the page No. 4

SLUU186 − March 2004 TPS40055-Based Design Converts 12-V Bus to 1.8 V at 15 A (HPA070) Mark Dennis System Power Contents 1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 3 Schematic . . . . . . . . . . . . . . . . . . . .

Summary of the content on the page No. 5

SLUU186 − March 2004 3 Schematic Figure 1. TPS40055EVM−001 (HPA070) Schematic TPS40055-Based Design Converts 12-V Bus to 1.8 V at 15 A (HPA070) 5 + +

Summary of the content on the page No. 6

SLUU186 − March 2004 4 Component Selection 4.1 TPS40055 Device Selection The TPS4005x family of parts offers a range of output current configurations including source only (TPS40054), source/sink (TPS40055), or source/sink with V prebias (TPS40057). In this converter the TPS40055 with OUT source/sink capability is selected. This serves to maintain continuous inductor ripple current all the way to zero load to improve the small signal loop response by preventing the inductor current from transiti

Summary of the content on the page No. 7

SLUU186 − March 2004 4.3 UVLO Circuitry The user programmable UVLO built into the TPS4005x provides hysteresis for transients shorter than a total count of seven cycles. If the input voltage to the converter can be slowly rising around the minimum V range, IN external hysteresis can be incorporated to prevent multiple on/off cycles during startup or shutdown. These on/off cycles are a result of line impedance external to the EVM causing V to the module to drop when under IN load, which causes th

Summary of the content on the page No. 8

SLUU186 − March 2004 4.6 Output Capacitor Selection Selection of the output capacitor is based on many application variables, including function, cost, size, and availability. The minimum allowable output capacitance is determined by the amount of inductor ripple current and the allowable output ripple, as given in equation (7). I RIPPLE 3A (7) C    83F OUT(min) 8 f V 8 300 kHz 15 mV RIPPLE In this design, C is 83 µF with V =15 mV to allow for some margin. However, this only affects the

Summary of the content on the page No. 9

SLUU186 − March 2004 4.8 Short Circuit Protection The TPS40055 implements short circuit protection by comparing the voltage across the topside MOSFET while it is ON to a voltage developed across R due to an internal current source of 10 µA inside pin 16. Both of these LIM voltages are negative with respect to V . From the datasheet equation, R is defined as: IN LIM I  R V OC DS(on) (max) OS (10) R  R9   () LIM 1.12 I I SINK SINK where • I is the overcurrent set point equal to the DC outpu

Summary of the content on the page No. 10

SLUU186 − March 2004 5 Test Setup Figure 2 illustrates the basic test setup needed to evaluate the TPS40055EVM−001. 5.1 DC Input Source The input voltage source should be capable of supplying between 10 V and 14 V and rated for at least 4 DC DC A of current. For best results the input leads should be made with a wire of 18AWG or larger. 5.2 Output Load The output load can be either an electronic load or a resistive load configured to draw between 0 A and 15 A. The output leads should be made wit

Summary of the content on the page No. 11

SLUU186 − March 2004 6 Test Results / Performance Data 6.1 Efficiency and Power Loss Figure 3 shows the efficiency as the load is varied from 1 A to over 15 A. The typical efficiency remains over 90% as the load ranges from 3 A to 12 A. POWER DISSIPATION EFFICIENCY vs vs LOAD LOAD 7 94 92 6 90 5 88 4 86 3 84 2 82 1 80 78 0 0 2 46 8 10 12 14 16 0 2 4 6 8 101214 16 I − Output Current − A OUT I − Output Current − A OUT Figure 3 Figure 4 6.2 Closed Loop Performance OVERALL GAIN AND PHASE vs FREQUENC

Summary of the content on the page No. 12

SLUU186 − March 2004 6.3 Output Ripple and Transient Response Figure 6 shows the typical output voltage ripple with I =15 A to be less than 20 mVpp. OUT The transient response is shown in Figure 7 as the load is stepped from 5 A to 15 A. The voltage deviation is less than 60 mV. OUTPUT VOLTAGE RIPPLE TRANSIENT RESPONSE V = 50 mV/div OUT I = 15 A OUT V RIPPLE (10 mV/div) I 5 A/div OUT t − Time − 1 µs/div t − Time − 200 µs/div Figure 6 Figure 7 7 EVM Assembly Drawing and PCB Layout Figure 8. Top

Summary of the content on the page No. 13

SLUU186 − March 2004 Figure 9. Top Side Copper Figure 10. Internal Layer 1 Copper TPS40055-Based Design Converts 12-V Bus to 1.8 V at 15 A (HPA070) 13

Summary of the content on the page No. 14

SLUU186 − March 2004 Figure 11. Internal Layer 2 Copper Figure 12. Bottom Layer Copper 14 TPS40055-Based Design Converts 12-V Bus to 1.8 V at 15 A (HPA070)

Summary of the content on the page No. 15

SLUU186 − March 2004 8 List of Materials Table 1 lists the parts values of the evaluation board. These values can be modified to meet the application requirements. Table 1. TPS40055EVM−001 (HPA070) List of Materials REFERENCE QTY DESCRIPTION SIZE MFR PART NUMBER DESIGNATOR C1, C4 2 Capacitor, ceramic, 470 pF, 50 V, X7R, 10% 805 Vishay VJ0805Y471KXAAT C12, C14 2 Capacitor, ceramic, 22 µF, 16 V, X5R, 20% 1812 TDK C4532X5R1C226MT C15 1 Capacitor, ceramic, 47 µF, 6.3 V, X5R, 20% 1812 TDK C4532X5R0J4

Summary of the content on the page No. 16

SLUU186 − March 2004 9 References 1. Data Sheet, TPS40055 Wide-Input Synchronous Buck Controller (SLUS593). 2. Technical Brief, PowerPAD Thermally Enhanced Package (SLMA002). 16 TPS40055-Based Design Converts 12-V Bus to 1.8 V at 15 A (HPA070)

Summary of the content on the page No. 17

IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. All products are sold subject to TI’s terms and conditions of sale supplied at the t


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