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evaluation board user guide UG-179 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 evaluation board for the 1.2 a, 20 v nonsynchronous step-down regulators please see the last page for an important warning and legal terms and conditions. rev. 0 | page 1 of 12 features 1.2 a maximum load current 2% output accuracy over temperature range wide input voltage range: 3.0 v to 20 v output voltage from 0.8 v to 0.85 v in 700 khz (adp2300) or 1.4 mhz (adp2301) switching frequency options automatic pfm/pwm mode switching precision enable pin with hysteresis integrated high-side mosfet integrated bootstrap diode adisimpower? online design tool available in ultrasmall, 6-lead tsot package general description the adp2300 / adp2301 are compact, constant-frequency, current- mode, step-down dc-to-dc regulators with an integrated power mosfet. the adp2300 / adp2301 evaluation boards are complete solutions that allow the user to evaluate the performance of the regulators. there are two frequency options available: the adp2300 runs at 700 khz, and the adp2301 runs at 1.4 mhz. these options allow the user to make design decisions based on the trade-off between efficiency and the size of the total solution. the adp2300 / adp2301 provide accurate (2%) output regulation for load currents up to 1.2 a. current-mode control provides fast and stable line and load transient performance. the precision, en pin, threshold voltage allows the adp2300 / adp2301 to be sequenced from other input/output supplies. the en pin can also be used as a programmable uvlo input by using a resistive divider. demonstration board 09232-001 figure 1.
UG-179 evaluation board user guide rev. 0 | page 2 of 12 table of contents features .............................................................................................. 1 general description ......................................................................... 1 demonstration board ...................................................................... 1 revision history ............................................................................... 2 using the evaluation board ............................................................. 3 jumper setting .............................................................................. 3 input power source connection ................................................ 3 output load connection ............................................................ 3 input and output voltmeter connections.................................3 power on the evaluation board ..................................................3 measuring evaluation board performance ...................................3 typical performance characteristics ..............................................5 demonstration board schematics and bill of materials ..............7 adp2300 schematic and bill of materials .................................7 adp2301 schematic and bill of materials .................................8 demonstration board layout ..........................................................9 revision history 8/10revision 0: initial version
evaluation board user guide UG-179 rev. 0 | page 3 of 12 using the evaluation board the adp2300 / adp2301 evaluation boards are fully assembled and tested. before applying power to the evaluation boards, follow the procedures in this section. jumper setting jumper j5 enables the part. connect a jumper between position 1 and position 2 to enable the part. connect a jumper between position 2 and position 3 to disable the part. leave jumper j5 open to obtain an approximately 7.8 v v in start-up voltage. table 1. jumper j5 (en) setting state function high enable the part low disable the part open program the v in start-up voltage to be about 7.8 v input power source connection before connecting the power source to the adp2300 / adp2301 evaluation board, make sure that the evaluation board is turned off. if the input power source includes a current meter, use that meter to monitor the input current. connect the positive terminal of the power source to the vin terminal (j1) on the evaluation board, and the negative terminal of the power source to the gnd terminal (j3) of the board. if the power source does not include a current meter, connect a current meter in series with the input source voltage. connect the positive terminal of the power source to the current meters positive lead (+), the negative terminal of the power source to the gnd terminal (j3) on the evaluation board, and the negative lead (?) of the current meter to the vin terminal (j1) on the board. output load connection make sure that the board is turned off before connecting the load. if the load includes a current meter, or if the current is not measured, connect the load directly to the demonstration board with the positive (+) load connection to the vout terminal (j2) and negative (?) load connection to the gnd terminal (j4). if a current meter is used, connect it in series with the load; connect the positive (+) current meter terminal to the evaluation board vout terminal (j2), the negative (?) current meter terminal to the positive (+) load terminal, and the negative (?) load terminal to the evaluation board gnd terminal (j4). input and output voltmeter connections measure the input and output voltages with voltmeters. make sure that the voltmeters are connected to the appropriate test point on the board. if the voltmeters are not connected to the right test point, the measured voltages will be incorrect due to the voltage drop across the leads and/or connections between the board, the power source, and/or the load. connect the input voltage measuring the voltmeters positive terminal (+) to the input capacitor (c2) positive terminal and the negative (?) terminal to the input capacitor (c2) negative terminal. connect the output voltage measuring the voltmeters positive (+) terminal to the output capacitor (c3 or c4) positive terminal and the negative (?) terminal to the output capacitor (c3 or c4) negative terminal. power on the evaluation board when the power source and load are connected to the adp2300 / adp2301 evaluation board, they can be powered up for operation. if the input power source voltage goes higher than 7.8 v with jumper j5 open, the output voltage goes up to 3.3 v. measuring evaluation board performance measuring the switching waveform to observe the switching waveform with an oscilloscope, place the oscilloscope probe tip at the end of inductor connected to the sw pin with the probe ground at gnd. set the scope to dc, 5 v/division, and 1 s/division time base. the switching waveform should alternate between 0 v and approximately the input voltage. measuring load regulation load regulation should be tested by increasing the load current at the output and measuring the output voltage across the output capacitor (c3 or c4). measuring line regulation vary the input voltage and measure the output voltage at a fixed output current. the input voltage can be measured across the input capacitor (c2), and the output voltage can be measured across the output capacitor (c3 or c4). measuring efficiency the efficiency, , is measured by comparing the input power with the output power. inin out out iv iv = measuring inductor current the inductor current is measured by removing one end of the inductor from the pad on the board and using a wire connected between the pad and the inductor. then a current probe is used to measure the inductor current.
UG-179 evaluation board user guide rev. 0 | page 4 of 12 measuring output voltage ripple to observe the output voltage ripple, place an oscilloscope probe across the output capacitor (c3 or c4) with the probe ground lead at the negative (?) capacitor terminal and the probe tip at the positive (+) capacitor terminal. set the oscilloscope to ac, 1 mv/division, and 1 s/division time base, 20 mhz bandwidth. the standard oscilloscope probe has a long wire ground clip. for high frequency measurements, this ground clip picks up high frequency noise and injects it into the measured output ripple. make sure to keep the ground lengths on the oscilloscope probe as short as possible to get a clean voltage ripple measurement. varying the output voltage the adp2300 / adp2301 demonstration board output is preset to 3.3 v; however, the output voltage can be adjusted to other output voltages using the following equation: ? ? ? ? ? ? ? ? += 4 2 1v800.0 r r v out
evaluation board user guide UG-179 rev. 0 | page 5 of 12 typical performance characteristics i out (a) 40 50 60 70 80 90 100 0 0.2 0.4 0.6 0.8 1.0 1.2 efficien c y (%) v out = 5.0v v out = 3.3v v out = 2.5v inductor: lps6225-472mlc diode: b230a 09232-072 figure 2. efficiency curve, v in = 12 v, f sw = 1.4 mhz i out (a) 40 50 60 70 80 90 100 0 0.2 0.4 0.6 0.8 1.0 1.2 efficiency (%) v out = 5.0v v out = 3.3v v out = 2.5v v out = 1.8v v out = 1.2v inductor: lps6225-103mlc diode: b230a 0 9232-073 figure 3. efficiency curve, v in = 12 v, f sw = 700 khz ?0.20 ?0.15 ?0.10 ?0.05 0 0.05 0.10 0.15 0.20 5 8 11 14 17 20 line regul a tion (%) f sw = 1.4mhz f sw = 700khz v in (v) 0 9232-068 figure 4. line regulation, v out = 3.3 v, i out = 500 ma ?0.20 ?0.15 ?0.10 ?0.05 0 0.05 0.10 0.15 0.20 0.2 0 0.4 0.6 0.8 1.0 1.2 load regul a tion (%) f sw = 1.4mhz f sw = 700khz i out (a) 0 9232-067 figure 5. load regulation, v out = 3.3 v, v in = 12 v ch1 5mv ch4 500ma ? ch2 5v m400ns a ch2 7.4v 2 4 1 b w b w b w v out il sw 09232-024 figure 6. steady state at heavy load, f sw = 1.4 mhz, i out = 1 a ch1 20mv ch4 200ma ? ch2 5v m10s a ch2 8v 2 4 1 b w b w b w v out il sw 0 9232-025 figure 7. steady state at light load, f sw = 1.4 mhz, i out = 40 ma
UG-179 evaluation board user guide rev. 0 | page 6 of 12 ch1 1v ch4 500ma ? ch2 10v m100s a ch3 8v 2 4 3 1 ch3 10v b w b w b w b w v out il en sw 09232-026 figure 8. soft start with 1 a resistance load, f sw = 1.4 mhz 2 1 4 v out i out sw ch1 50mv ch4 500ma ? ch2 10v m100s a ch4 630ma b w b w b w 09232-058 figure 9. adp2301 load transient, 0.2 a to 1.0 a, v out = 3.3 v, v in = 12 v (f sw = 1.4 mhz, l = 4.7 h, c out = 22 f) 2 1 4 v out i out sw ch1 100mv ch4 500ma ? ch2 10v m100s a ch4 630ma b w b w b w 0 9232-060 figure 10. adp2300 load transient, 0.2 a to 1.0 a, v out = 3.3 v, v in = 12 v (f sw = 700 khz, l = 10 h, c out = 22 f) 1 3 v out v in sw ch1 5mv ch3 5v ch2 10v m1ms a ch3 11.4v b w b w 2 0 9232-061 figure 11. adp2301 line transient, 7 v to 15 v, v out = 3.3 v, i out = 1.2 a, f sw = 1.4 mhz ?100 ?80 ?60 ?40 ?20 0 20 40 60 80 100 ?200 ?160 ?120 ?80 ?40 0 40 80 120 160 200 1k 10k 100k 1m magnitude [b/a] (db) phase [b/a] (degrees) cross frequency: 80khz phase margin: 68 frequency (hz) 09232-063 figure 12. adp2301 bode plot, v out = 3.3 v, v in = 12 v (f sw = 1.4 mhz, l = 4.7 h, c out = 22 f) ?100 ?80 ?60 ?40 ?20 0 20 40 60 80 100 ?200 ?160 ?120 ?80 ?40 0 40 80 120 160 200 1k 10k 100k frequency (hz) 1 1m magnitude [b/a] (db) phase [b/a] (degrees) cross frequency: 47khz phase margin: 77 09232-065 figure 13. adp2300 bode plot, v out = 3.3 v, v in = 12 v (f sw = 700 khz, l = 10 h, c out = 22 f)
evaluation board user guide UG-179 rev. 0 | page 7 of 12 demonstration board schemati cs and bill of materials adp2300 schematic and bill of materials adp2300 (700khz) u1 c1 0.1f r2 31.6k ? r4 10.2k ? c4 nc d1 b230a r3 1.8k ? vin c2 10f v out j2 j1 1 2 3 bst 1 gnd 2 fb 34 en 5 vin sw 6 gnd j4 j3 c3 22f r1 10k ? gnd j5 en l1 10h 09232-014 figure 14. adp2300 demonstration board schematic table 2. adp2300 demonstration board bill of materials qty reference designator description manufacturer part number 1 c1 capacitor, 0.1 f, 25 v, 0603, x7r murata grm188r71e104ka01 1 c2 capacitor, 10 f, 25 v, 1206, x5r murata grm31cr61e106ka12 1 c3 capacitor, 22 f, 6.3 v, 1206, x5r murata grm31cr60j226ke19 1 c4 no assembly n/a 1 n/a 1 1 d1 schottky diode, 2 a, 30 v, sma diodes, inc. b230a 4 j1, j2, j3, j4 header, 1 2, 0.1 pitch harwin m20-9990246 1 j5 header, 1 3, 0.1 pitch harwin m20-9990346 1 l1 shielded power inductor, 10 h, 2.1 a coilcraft, inc. lps6225-103mlc 1 r1 resistor, 10 k, 1%, 0603 vishay crcw060310k0fkea 1 r2 resistor, 31.6 k, 1%, 0603 vishay crcw060331k6fkea 1 r3 resistor, 1.8 k, 1%, 0603 vishay crcw06031k80fkea 1 r4 resistor, 10.2 k, 1%, 0603 vishay crcw060310k2fkea 1 u1 1.2 a, 20 v, 700 khz nonsynchronous step-down switching regulator analog devices, inc. adp2300 1 n/a is not applicable.
UG-179 evaluation board user guide rev. 0 | page 8 of 12 adp2301 schematic and bill of materials adp2301 (1.4mhz) u1 c1 0.1f r2 31.6k ? r4 10.2k ? c4 nc d1 b230a r3 1.8k ? vin c2 10f v out j2 j1 1 2 3 bst 1 gnd 2 fb 34 en 5 vin sw 6 gnd j4 j3 c3 22f r1 10k ? gnd j5 en l1 4.7h 09232-015 figure 15. adp2301 demonstration board schematic table 3. adp2301 demonstration board bill of materials qty reference designator description manufacturer part number 1 c1 capacitor, 0.1 f, 25 v, 0603, x7r murata grm188r71e104ka01 1 c2 capacitor, 10 f, 25 v, 1206, x5r murata grm31cr61e106ka12 1 c3 capacitor, 22 f, 6.3 v, 1206, x5r murata grm31cr60j226ke19 1 c4 no assembly n/a 1 n/a 1 1 d1 schottky diode, 2 a, 30 v, sma diodes, inc. b230a 4 j1, j2, j3, j4 header, 1 2, 0.1 pitch harwin m20-9990246 1 j5 header, 1 3, 0.1 pitch harwin m20-9990346 1 l1 shielded power inductor, 4.7 h, 3.0 a coilcraft, inc. lps6225-472mlc 1 r1 resistor, 10 k, 1%, 0603 vishay crcw060310k0fkea 1 r2 resistor, 31.6 k, 1%, 0603 vishay crcw060331k6fkea 1 r3 resistor, 1.8 k, 1%, 0603 vishay crcw06031k80fkea 1 r4 resistor, 10.2 k, 1%, 0603 vishay crcw060310k2fkea 1 u1 1.2 a, 20 v, 1.4 mhz nonsynchronous step-down switching regulator analog devices, inc. adp2301 1 n/a is not applicable.
evaluation board user guide UG-179 rev. 0 | page 9 of 12 demonstration board layout 09232-016 figure 16. demonstrat ion board, top layer 09232-017 figure 17. demonstratio n board, third layer 09232-018 figure 18. demonstration board, second layer 09232-019 figure 19. demonstration board, bottom layer
UG-179 evaluation board user guide rev. 0 | page 10 of 12 notes
evaluation board user guide UG-179 rev. 0 | page 11 of 12 notes
UG-179 evaluation board user guide rev. 0 | page 12 of 12 notes esd caution esd (electrostatic discharge) sensitive device . charged devices and circuit boards can discharge without detectio n. although this product features patented or proprietary pr otection 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 ev aluation 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 a nd 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 a greement 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 condition s of the agreement, adi hereby grants to customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable li cense 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 boar d; 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 evaluatio n board is not sold to customer; all righ ts not expressly granted herein, including ownership of the evaluation board, are reserved by adi. confiden tiality. this agreement and the evaluation board shall all be c onsidered the confidential and propriet ary 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 restri ctions. customer may not disassemble, decompile or reverse engine er 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 o r 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. termina tion. 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 re presentations, endorsements, gua rantees, 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 damag es resulting from customers possession or use of the evaluation board, including but not limited to lost profits, delay costs, labor costs or loss of goodwill. adis total liab ility 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 evaluati on 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 constru ed 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 federa l 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. ?2010 analog devices, inc. all rights reserved. trademarks and registered trademarks are the prop erty of their respective owners. ug09232-0-8/10(0)

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