ANALOG DEVICES EVAL-LT8622S-AZ Step Down Silent Switcher User Guide

ANALOG DEVICES EVAL-LT8622S-AZ Step Down Silent Switcher User Guide

General Description

The demonstration circuit EVAL-LT8622S-AZ is a 18V, 2A synchronous Silent Switcher 3® step-down regulator with ultra-low noise, high efficiency, and power density featuring the LT8622S. The input voltage range of EVAL- LT8622S- AZ is 2.7V to 18V. The default demo board setting is 1.0V at 2A maximum DC output current. The LT8622S is a compact, ultra-low noise, ultra-low emission, high efficiency, and high speed synchronous monolithic step-down switching regulator. The uniquely designed combination of the ultra-low noise reference and third- generation Silent Switcher architecture enables the LT8622S to achieve both high efficiency and excellent wideband noise performance. Minimum on-time of 12ns allows high VIN to low VOUT conversion at high frequency.

Program the LT8622S switching frequency either through the oscillator resistor or external clock over a 300kHz to 6MHz range. The default frequency of demo circuit EVAL- LT8622S-AZ is 2MHz. The SYNC pin on the demo board is grounded by default for low ripple pulse skip mode operation. To synchronize to an external clock, move JP1 to SYNC and apply the external clock to the SYNC terminal. Select the forced continuous mode (FCM) respectively by moving the JP1 shunt. Figure 1 shows the efficiency of the circuit at 5V input and 12V input in the
force continuous mode operation (input from VIN terminal). Figure 2 shows the LT8622S temperature rising on the EVAL-LT8622S-AZ demo board under 1A and 2A load conditions.

The demo board has an EMI filter option. This EMI filter can be included by soldering additional 22µF, 25V, 1210 capacitors for C3, C6. Figure 3 shows the EMI performance of the board. The red line in Radiated EMI Performance is the CISPR32 Class B limit. In addition to the excellent EMI performance, the regulator also features ultra-low noise over a wide frequency range, as shown in Figure 4.

The LT8622S data sheet gives a complete description of the part, including operation and application information. Read the data sheet in conjunction with this demo manual for demo circuit EVAL-LT8622S-AZ. The LT8622S is assembled in a 4mm x 3mm LQFN package with exposed ground pads for low thermal resistance. The layout recommendations for low EMI operation and maximum thermal performance are available in the data sheet section ‘Low EMI PCB Layout and Thermal Considerations’.

Design files for this circuit board are available.

Performance Summary Specifications are at TA =25°C

Conditions

| 2|  |  |
Efficiency| VIN = 12V fSW = 2MHz

VOUT = 1.0V at IOUT = 2A

|  |

84

|  |

%

Figure 1. LT8622S Demo Circuit EVAL-LT8622S-AZ Efficiency vs. Load Current (Input from V IN Terminal)

Figure 3. LT8622S Demo Circuit EVAL-LT8622S-AZ EMI Performance (12V Input to 1.0V Output at 2A, f SW = 2MHz)

Figure 4. LT8622S Data Sheet Typical Application Circuit Noise Spectral Density (12V Input to 1.0V Output, f SW = 2MHz)

Quick Start Procedure

The demonstration circuit EVAL-LT8622S-AZ is easy to set up to evaluate the performance of LT8622S. See Figure 5 for proper equipment setup and follow these test procedures.
NOTE: When measuring the input or output voltage ripple, be careful to avoid a long ground lead on the oscilloscope probe. For input voltage ripple, local/remote output voltage ripple, measure them through the U.FL connectors through VIN_SENSE, VO_LOCAL, and VO_SENSE. Figure 6 shows the output voltage ripple measured at the output capacitor C21 through the VO_SENSE U.FL connector.

1. Place JP1 on the FCM
2. With power off, connect the input power supply to VIN (E1) and GND (E2).
3. With power off, connect the load from VOUT (E19) to GND (E20).
4. Connect the DMM between the input test points: VIN_SENSE (E3) and SENSE_GND (E4) to monitor the input voltage. Connect DMM between VO_SENSE (E10) and SENSE_GND (E11) to monitor the output voltage
5. Turn on the power supply at the
6. Check for the proper output voltage (VOUT = 1V).
7. Once the input and output voltages are properly established, adjust the load current within the operating range of 0A to 2A maximum per channel. Observe the output voltage regulation, output voltage ripples, switching node waveform, load transient response, and other
8. Add an external clock to the SYNC terminal when using the SYNC function (JP1 on the SYNC position). Choose the RT resistor (R4) to set the LT8622S switching frequency at least 20% below the lowest SYNC
   

Typical Performance Characteristics

Figure 6. LT8622S Demo Circuit EVAL-LT8622S-AZ Output Voltage Ripple Measured Through J2 (12V Input, Remote Sense Enabled, I OUT = 2A, 200MHz BW)

Figure 7. Thermal Performance at V IN __= 12V, S VIN = V IN , f SW = 2MHz, V OUT = 1.0V, I LOAD = 2A, T A = 25°C.

Figure 8. Transient Response with Load Steps 0A to 1A to 0A at dI/dt =1A/µs. V OUT measured at J3.

LT8622S EV Kit Bill of Materials

ITEM| QTY| REFERENCE| PART DESCRIPTION| MANUFACTURER/PART NUMBER
---|---|---|---|---
1| 1| C1| CAP., 0.22µF, X7R, 25V, 10%, 0402| TDK, CGA2B3X7R1E224K050BB
2| 0| C3, C6| CAP., OPTION,1210|
3| 1| C4| CAP.,100µF, ALUM ELECT, 25V, 20%, 6.3mm x 7.7mm, CE-BS SERIES| SUN ELECTRONIC INDUSTRIES CORP, 25CE100BS
4| 1| C5| CAP., 4.7µF, X5R, 25V, 10%, 0603| MURATA, GRM188R61E475KE15D
5| 1| C8| CAP., 0.01µF, X7R, 50V, 10%, 0603|
6| 1| C10| CAP., 0.1µF, X7R, 25V, 10%, 0603| AVX, 06035C103KAT2A
7| 1| C11| CAP., 82pF, X7R, 50V, 10%, 0603| AVX, 06033C104KAT2A
8| 0| C12, C13| CAP., OPTION,0603|
9| 2| C14, C18| CAP., 2.2µF, X7R, 6.3V, 10%, 0603, AEC- Q200| MURATA, GCM188R70J225KE22J
10| 1| C15| CAP., 22µF, X7R, 4V, 20%, 0603| YAGEO, CC0805KKX7R5BB225
11| 2| C19| CAP., 47µF, X5R, 4V, 20%, 0603| MURATA, GRM188R60G476ME15D
12| 1| C21| CAP., 10µF, X7S, 4V, 20%, 0603| TDK, C1608X7S0G106M080AB
13| 4| E1, E2, E19, E20| TEST POINT, SILVER PLATE, PHOSPHOR BRONZE, 3.81mm x 2.03mm, 2.29mm H, SMT| TE CONNECTIVITY, 1625854-2
14| 11| E3 to E6, E8 to E12| TEST POINT, 0805, 2mm x 1.25mm x 1.45mm, PROBE PAD, FOIL,VERT, SMT, NATURAL| WURTH ELEKTRONIK, 885012206006
15| 2| FB1, R18| RES., 0Ω, 1/10W, 0603, AEC-Q200| VISHAY, CRCW06030000Z0EA
16| 2| J1, J2, J3| CONN., U.FL COAXIAL, RCPT, MALE, STR, SMT, Au| HIROSE ELECTRIC JST, U.FL-R-SMT- 1(01) AYU1-1P-02676-120
17| 2| JP1, JP2| CONN., HDR, MALE, 2mm x 3,2mm, VERT, ST, THT| WURTH ELEKTRONIK, 62000621121
18| 1| L2| IND., 1µH, PWR, SHIELDED, 20%, 4A,

52.5mΩ, 1616AB, IHLP-01 Series

| VISHAY, IHLP1616ABER1R0M01
19| 1| L4| IND., 310nH, PWR, 20%, 12.1A ,

5.3mΩ, SMD, SHIELDED

| TDK, CLT32-R31
20| 1| LB1| LABEL SPEC, DEMO BOARD SERIAL NUMBER| BRADY, THT-96-717-10
21| 4| MH1 to MH4| STANDOFF, NYLON, SNAPON, 0.375″| KEYSTONE, 8832
22| 1| PCB1| PCB, EVAL-LT8622S-AZ| ADI APPROVED SUPPLIER, 600- EVAL-LT8622S-AZ
23| 1| R1| RES., 499Ω, 1%, 1/10W, 0603, AEC-Q200| VISHAY, CRCW0603499RFKEA
24| 1| R2| RES.,1 Ω, 1%, 1/10W, 0603, AEC-Q200| NIC, NRC06F1R00TRF
25| 2| R3, R12| RES.,100kΩ, 1%, 1/10W, 0603, AEC-Q200| VISHAY, CRCW0603100KFKEA
26| 1| R4| RES.,47.5kΩ, 1%, 1/10W, 0603| VISHAY, CRCW060347K5FKEA
27| 0| R5, R15, R16, R17| RES., OPTION, 0603|
28| 1| R6| RES.,10kΩ, 1%, 1/10W, 0603, AEC-Q200| VISHAY, CRCW060310K0FKEA
29| 1| R8| RES., 0.001Ω, 5%, 1W, 0805,

LONG SIDE WRAP AROUND, METAL, SENSE, AEC-Q200

| SUSUMU, KRL2012E-M-R001-J-T5
30| 2| R10, R11| RES., 49.9kΩ, 1%, 1/10W, 0603| VISHAY, CRCW060349K9FKEA
31| 1| R19| RES., 10Ω, 1%, 1/10W, 0603| VISHAY, CRCW06030000Z0EA
32| 1| U1| IC, SYNC. STEP-DOWN SILENT SWITCHER, LQFN-20| ANALOG DEVICES, LT8622SAV#PBF
33| 2| XJP1, XJP2| CONN., SHUNT, FEMALE, 2-POS, 2mm| WURTH ELEKTRONIK, 60800213421

LT8622S EV Kit Schematic

Revision History

REVISION

NUMBER

| REVISION

DATE

| DESCRIPTION| PAGES

CHANGED

---|---|---|---
A| 04/24| Initial release for open market| —

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