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DEMO MANUAL

EVAL-LT8350-AZ

Rev. 0

DESCRIPTION

LT8350

40V

, 18V

OUT

, 6A Synchronous

Buck-Boost Silent Switcher

Evaluation circuit EVAL-LT8350-AZ is a 40V synchronous

buck-boost converter featuring the

8350

. It drives

up to 2.5A load at 12V output when V

is between 9V

and 40V and will run down to 3V

with reduced out-

put current. EVAL-LT8350-AZ runs at 350kHz switching

frequency with spread spectrum frequency modulation

(SSFM) disabled. When enabled, SSFM spreads the

switching frequency of the LT8350 from f

to f

25% for reduced EMI emission.
The LT8350 has an operating input voltage range of

3V to 40V. It has internal, synchronous 42V MOSFETs

at buck-side and 20V MOSFETs at boost-side for high

efficiency and small size. It has an adjustable switching

frequency between 200kHz and 2MHz. The LT8350 can

be synchronized to an external source, programmed with

SSFM enabled for low EMI, or set to normal operation.
The LT8350’s integrated LOADTG high side PMOS driver

assists with disconnecting load when a fault is triggered.

LOADTG turns off the PMOS when FB < 0.25V or FB >

1.1V or ISP–ISN > 0.75V. LOADEN can be used directly

to turn off LOADTG and all power switches.
The LT8350 can regulate output current using ISP and

ISN. Maximum load current can be limited when LT8350

is used for a constant voltage regulator. It can be also used

for a LED driver or a battery charger where constant cur-

rent regulation is required. Output current can be adjusted

by placing a controllable DC voltage on the CTRL pin.

All registered trademarks and trademarks are the property of their respective owners.

The output current can be monitored through the ISMON

output pin. ISMON can be used to improve load transient

response by injecting load current to V

. The load current

injection is described in the following sections.
Undervoltage lockout can be adjusted on EVAL-LT8350-AZ

with a few simple resistor choices.
Small ceramic input and output capacitors are used to

save space and cost. The board is designed with tiny, high

frequency capacitors placed near the V

and V

OUT

pins

for a reduction in radiated EMI.
There is an inductor EMI filter and a small ferrite bead EMI

filter on the input and output of EVAL-LT8350-AZ. These

filters, combined with proper board layout and SSFM,

are effective in reducing EMI to pass CISPR25 class 5

conducted EMI. Please follow the recommended layout

and four-layer PCB thickness of EVAL-LT8350-AZ for low

EMI applications.
The LT8350 data sheet gives a complete description of

the part, operation, and applications information. The data

sheet must be read in conjunction with this demo manual

for EVAL-LT8350-AZ. The LT8350RV is assembled in a

32-lead laminate package with QFN footprint (LQFN) with

thermally enhanced exposed ground pads. Proper board

layout is essential for maximum thermal performance.

Design files for this circuit board are available

Summary of Contents for EVAL-LT8350-AZ

Page 1: ... for a LED driver or a battery charger where constant cur rent regulation is required Output current can be adjusted by placing a controllable DC voltage on the CTRL pin All registered trademarks and trademarks are the property of their respective owners The output current can be monitored through the ISMON output pin ISMON can be used to improve load transient response by injecting load current t...

Page 2: ...V Output Voltage Ripple VIN 12V VOUT 12V IOUT 2 5A 50 mV Maximum Output Current 7 0V VIN 40V VOUT 12V 2 5 A Switching Frequency fSW R4 143k SSFM OFF R4 143k SSFM ON 350 350 to 440 kHz kHz Typical Efficiency without EMI filters VIN 12V VOUT 12V IOUT 2 5A 95 Typical Efficiency with EMI filters VIN 12V VOUT 12V IOUT 2 5A 94 Peak Switch Current Limit 6 7 8 A VOUT Overvoltage Threshold R22 110k R3 10 0...

Page 3: ...ply with power off and meters as shown in Figure 1 3 Set JP1 at NO SSFM to disable SSFM at SSFM to enable SSFM 4 Set JP2 at RC for typical loop compensation at RC FF forloadcurrentinjectionschemewhichimprovesload transient response 5 Afterallconnectionsaremade turnontheinputpower andverifythattheinputvoltageisbetween7Vand40V 6 Remove the clip on lead from EN UVLO Verify that the output voltage is ...

Page 4: ...pple at 12V Input Voltage and 2 5A Load 200µs DIV LOAD CURRENT 2A DIV VOUT 500mV DIV AC COUPLED EVAL 8350 F04 Figure 4 EVAL LT8350 AZ Transient Response with JP1 FCM SSFM and JP2 RC 12VIN 12VOUT 2 5A to 1 25A 200µs DIV LOAD CURRENT 2A DIV VOUT 500mV DIV AC COUPLED EVAL 8350 F05 Figure 5 EVAL LT8350 AZ Transient Response with JP1 FCM SSFM and JP2 RC 12VIN 12VOUT 2 5A to 0A Figure 6 EVAL LT8350 AZ T...

Page 5: ...PONSE As EVAL LT8350 AZ uses R1 10mΩ and R17 3 01kΩ VR1 is determined to 1 2kΩ Figure 8 and Figure 9 show half to full load transient response and zero to full load transient response respectively with the load current injection scheme JP2 RC FF and VR1 1 2kΩ It is shown that the output voltage drop is smaller than Figure 4 and Figure 5 With the load current injection output voltage drop can be re...

Page 6: ...10 0 10 20 30 40 50 60 AVERAGE CE dBµA EVAL 8350 F11a a CISPR25 Average Current Method CLASS 5 PEAK LIMIT EVAL LT8350 AZ AMBIENT FREQUENCY MHz 0 1 1 10 100 300 60 50 40 30 20 10 0 10 20 30 40 50 60 PEAK CE dBµA EVAL 8350 F11b b CISPR25 Peak Current Method Figure 11 EVAL LT8350 AZ CISPR25 Current Conducted EMI Performance with 12VIN to 12VOUT at 2 5A JP1 DCM SSFM CLASS 5 AVERAGE LIMIT EVAL LT8350 A...

Page 7: ...IC ERJ2RKF4023X 13 1 R12 RES 84 5k 1 1 10W 0402 AEC Q200 PANASONIC ERJ2RKF8452X 14 2 R13 R14 RES 100k 5 1 16W 0402 AEC Q200 VISHAY CRCW0402100KJNED 15 1 R22 RES 110k 1 1 16W 0402 AEC Q200 VISHAY CRCW0402110KFKED Optional Low EMI Components 16 1 L2 REMOVE AND SHORT IND 2 2μH PWR SHIELDED 20 9 7A 14 5mΩ 5 48mm 5 28mm XAL5030 AEC Q200 COILCRAFT XAL5030 222MEB 17 1 C12 REMOVE CAP 10μF X7S 50V 10 1210 ...

Page 8: ...TED CHEMI CON HHXC160ARA470ME61G Hardware For Evaluation Circuit Only 32 1 JP1 CONN HDR MALE 2 4 2mm VERT ST THT WURTH ELEKTRONIK 62000821121 33 1 JP2 CONN HDR MALE 1 3 2mm VERT ST THT WURTH ELEKTRONIK 62000311121 34 2 XJP1 XJP2 CONN SHUNT FEMALE 2 POS 2mm WURTH ELEKTRONIK 60800213421 35 10 E1 E4 E7 E9 E12 E14 E16 TEST POINT TURRET 0 064 MTG HOLE PCB 0 062 THK MILL MAX 2308 2 00 80 00 00 07 0 36 5...

Page 9: ...C26 0 1uF 50V C33 0 1uF E15 GND E14 CLKOUT C1 OPT 1210 C9 0 1uF 50V FB1 MPZ2012S221ATD25 OPT C30 HHXC160ARA470ME61G OPT M1 OPT 3 1 2 C19 22uF 16V 1210 C32 0 1uF 50V L2 2 2uH XAL5030 222MEB 1 2 R8 OPT R22 110K C11 10uF 50V 1210 VR1 20k 3313J 1 203E 1 3 2 C2 OPT 1210 C12 10uF 50V 1210 R2 0 TP1 LOADEN C10 10uF 50V 1210 R20 OPT R1 0 010 KRL2012 C24 GYA1H680MCQ1GS OPT E2 GND C25 OPT R11 OPT JP1 SYNC MO...

Page 10: ...ot 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 RESTRICTIONS Customer may not disassemble decompile or reverse engineer chips on the Evaluation Board Customer shall inform ADI of any occurred dam...

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