Datasheet ADP1822 (Analog Devices) - 7
| Fabricante | Analog Devices |
| Descripción | PWM, Step-Down DC-to-DC Controller with Margining and Tracking |
| Páginas / Página | 24 / 7 — Data Sheet. ADP1822. PIN CONFIGURATION AND FUNCTION DESCRIPTIONS. BST. … |
| Revisión | D |
| Formato / tamaño de archivo | PDF / 365 Kb |
| Idioma del documento | Inglés |
Data Sheet. ADP1822. PIN CONFIGURATION AND FUNCTION DESCRIPTIONS. BST. PVCC. SYNC. PGND. FREQ. CSL. MAR. VCC. TOP VIEW. (Not to Scale). TRKN. MUP
Línea de modelo para esta hoja de datos
Versión de texto del documento
link to page 12 link to page 12 link to page 12 link to page 13 link to page 13
Data Sheet ADP1822 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS BST 1 24 NC DH 2 23 PVCC SW 3 22 DL SYNC 4 21 PGND FREQ 5 20 CSL ADP1822 MAR 6 19 VCC TOP VIEW (Not to Scale) TRKN 7 18 MUP TRKP 8 17 MDN SHDN 9 16 MSEL PWGD 10 15 COMP DGND 11 14 FB GND 12 13 SS NC = NO CONNECT
05311-005 Figure 4. ADP1822 Pin Configuration
Table 3. Pin Function Descriptions Pin No. Mnemonic Description
1 BST High-Side Gate Driver Boost Capacitor Input. A capacitor between SW and BST powers the high-side gate driver DH. The capacitor is charged through a diode from PVCC when the low-side MOSFET is on. Connect a 0.1 µF or greater ceramic capacitor from BST to SW and a Schottky diode from PVCC to BST to power the high-side gate driver. 2 DH High-Side Gate Driver Output. Connect DH to the gate of the external high-side N-channel MOSFET switch. DH is powered from the capacitor between SW and BST and its voltage swings between VSW and VBST. 3 SW Power Switch Node. SW is the power switching node. Connect the source of the high-side N-channel MOSFET switch and the drain of the low-side N-channel MOSFET synchronous rectifier to SW. SW powers the output through the output LC filter. 4 SYNC Frequency Synchronization Input. Drive SYNC with an external 300 kHz to 1.2 MHz signal to synchronize the converter switching frequency to the applied signal. The maximum SYNC frequency is limited to 2× the nominal internal frequency selected by FREQ. Do not leave SYNC unconnected; when not used, connect SYNC to GND. 5 FREQ Frequency Select Input. FREQ selects the converter switching frequency. Drive FREQ low to select 300 kHz, or high to select 600 kHz. Do not leave FREQ unconnected. 6 MAR Margin Control Input. MAR is used with MSEL to control output voltage margining. MAR chooses between high voltage and low voltage margining when MSEL is driven high. If not used, connect MAR to GND. 7 TRKN Tracking Comparator Negative Input. Drive TRKN from the voltage that the ADP1822 output voltage tracks. TRKN voltage is limited to VCC. See the Output Voltage Tracking section. 8 TRKP Tracking Comparator Positive Input. Drive TRKP from the output voltage. TRKP voltage is limited to VCC. See the Output Voltage Tracking section. 9 SHDN Active Low DC-to-DC Shutdown Input. Drive SHDN high to turn on the converter. Drive it low to turn it off. Connect SHDN to VCC for automatic startup. 10 PWGD Open-Drain Power-Good Output. PWGD sinks current to GND when the output voltage is above or below the regulation voltage. Connect a pull-up resistor from PWGD to VDD for a logical power-good indicator. 11 DGND Digital Ground. Connect DGND to GND at a single point as close as possible to the IC. 12 GND Analog Ground. Connect GND to PGND at a single point as close as possible to the IC. 13 SS Soft Start Control Input. A capacitor from SS to GND controls the soft start period. When the output is overloaded, SS is discharged to prevent excessive input current while the output recovers. Connect a 1 nF to 1 µF capacitor from SS to GND to set the soft start period. See the Soft Start section. 14 FB Voltage Feedback Input. Connect to a resistive voltage divider from the output to FB to set the output voltage. See the Setting the Output Voltage section. 15 COMP Compensation Node. Connect a resistor-capacitor network from COMP to FB to compensate the regulation control system. See the Compensation section. 16 MSEL Margin Select Input. Drive MSEL high to activate the voltage margining feature. Drive MSEL low to regulate the output voltage to the nominal value. If not used, connect MSEL to GND. Rev. D | Page 7 of 24 Document Outline Features Applications General Description Revision History Specifications Absolute Maximum Ratings ESD Caution Simplified Block Diagram Pin Configuration and Function Descriptions Typical Performance Characteristics Theory of Operation Current-Limit Scheme Output Voltage Margining Output Voltage Tracking Soft Start High-Side Driver (BST and DH) Low-Side Driver (DL) Input Voltage Range Setting the Output Voltage Switching Frequency Control Compensation Power-Good Indicator Shutdown Control Application Information Selecting the Input Capacitor Output LC Filter Selecting the MOSFETS Setting the Current Limit Feedback Voltage Divider Setting the Voltage Margin Compensating the Regulator Compensation Using the ESR Zero Compensation Using Feed-Forward Compensation Using Both the ESR and Feed-Forward Zeros Setting the Soft Start Period Synchronizing the Converter Setting the Output Voltage Tracking Application Circuits Outline Dimensions Ordering Guide
Data Sheet ADP1822 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS BST 1 24 NC DH 2 23 PVCC SW 3 22 DL SYNC 4 21 PGND FREQ 5 20 CSL ADP1822 MAR 6 19 VCC TOP VIEW (Not to Scale) TRKN 7 18 MUP TRKP 8 17 MDN SHDN 9 16 MSEL PWGD 10 15 COMP DGND 11 14 FB GND 12 13 SS NC = NO CONNECT
05311-005 Figure 4. ADP1822 Pin Configuration
Table 3. Pin Function Descriptions Pin No. Mnemonic Description
1 BST High-Side Gate Driver Boost Capacitor Input. A capacitor between SW and BST powers the high-side gate driver DH. The capacitor is charged through a diode from PVCC when the low-side MOSFET is on. Connect a 0.1 µF or greater ceramic capacitor from BST to SW and a Schottky diode from PVCC to BST to power the high-side gate driver. 2 DH High-Side Gate Driver Output. Connect DH to the gate of the external high-side N-channel MOSFET switch. DH is powered from the capacitor between SW and BST and its voltage swings between VSW and VBST. 3 SW Power Switch Node. SW is the power switching node. Connect the source of the high-side N-channel MOSFET switch and the drain of the low-side N-channel MOSFET synchronous rectifier to SW. SW powers the output through the output LC filter. 4 SYNC Frequency Synchronization Input. Drive SYNC with an external 300 kHz to 1.2 MHz signal to synchronize the converter switching frequency to the applied signal. The maximum SYNC frequency is limited to 2× the nominal internal frequency selected by FREQ. Do not leave SYNC unconnected; when not used, connect SYNC to GND. 5 FREQ Frequency Select Input. FREQ selects the converter switching frequency. Drive FREQ low to select 300 kHz, or high to select 600 kHz. Do not leave FREQ unconnected. 6 MAR Margin Control Input. MAR is used with MSEL to control output voltage margining. MAR chooses between high voltage and low voltage margining when MSEL is driven high. If not used, connect MAR to GND. 7 TRKN Tracking Comparator Negative Input. Drive TRKN from the voltage that the ADP1822 output voltage tracks. TRKN voltage is limited to VCC. See the Output Voltage Tracking section. 8 TRKP Tracking Comparator Positive Input. Drive TRKP from the output voltage. TRKP voltage is limited to VCC. See the Output Voltage Tracking section. 9 SHDN Active Low DC-to-DC Shutdown Input. Drive SHDN high to turn on the converter. Drive it low to turn it off. Connect SHDN to VCC for automatic startup. 10 PWGD Open-Drain Power-Good Output. PWGD sinks current to GND when the output voltage is above or below the regulation voltage. Connect a pull-up resistor from PWGD to VDD for a logical power-good indicator. 11 DGND Digital Ground. Connect DGND to GND at a single point as close as possible to the IC. 12 GND Analog Ground. Connect GND to PGND at a single point as close as possible to the IC. 13 SS Soft Start Control Input. A capacitor from SS to GND controls the soft start period. When the output is overloaded, SS is discharged to prevent excessive input current while the output recovers. Connect a 1 nF to 1 µF capacitor from SS to GND to set the soft start period. See the Soft Start section. 14 FB Voltage Feedback Input. Connect to a resistive voltage divider from the output to FB to set the output voltage. See the Setting the Output Voltage section. 15 COMP Compensation Node. Connect a resistor-capacitor network from COMP to FB to compensate the regulation control system. See the Compensation section. 16 MSEL Margin Select Input. Drive MSEL high to activate the voltage margining feature. Drive MSEL low to regulate the output voltage to the nominal value. If not used, connect MSEL to GND. Rev. D | Page 7 of 24 Document Outline Features Applications General Description Revision History Specifications Absolute Maximum Ratings ESD Caution Simplified Block Diagram Pin Configuration and Function Descriptions Typical Performance Characteristics Theory of Operation Current-Limit Scheme Output Voltage Margining Output Voltage Tracking Soft Start High-Side Driver (BST and DH) Low-Side Driver (DL) Input Voltage Range Setting the Output Voltage Switching Frequency Control Compensation Power-Good Indicator Shutdown Control Application Information Selecting the Input Capacitor Output LC Filter Selecting the MOSFETS Setting the Current Limit Feedback Voltage Divider Setting the Voltage Margin Compensating the Regulator Compensation Using the ESR Zero Compensation Using Feed-Forward Compensation Using Both the ESR and Feed-Forward Zeros Setting the Soft Start Period Synchronizing the Converter Setting the Output Voltage Tracking Application Circuits Outline Dimensions Ordering Guide