Datasheet ADP1850 (Analog Devices) - 8
| Manufacturer | Analog Devices |
| Description | Wide Range Input, Dual/Two-Phase, DC-to-DC Synchronous Buck Controller |
| Pages / Page | 32 / 8 — ADP1850. Data Sheet. Pin No. Mnemonic. Description |
| Revision | C |
| File Format / Size | PDF / 1.1 Mb |
| Document Language | English |
ADP1850. Data Sheet. Pin No. Mnemonic. Description
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ADP1850 Data Sheet Pin No. Mnemonic Description
15 ILIM2 Current Limit Sense Comparator Inverting Input for Channel 2. Connect a resistor between ILIM2 and SW2 to set the current limit offset. For accurate current limit sensing, connect ILIM2 to a current sense resistor at the source of the low-side MOSFET. 16 BST2 Boot-Strapped Upper Rail of High Side Internal Driver for Channel 2. Connect a multilayer ceramic capacitor (0.1 µF to 0.22 µF) between BST2 and SW2. There is an internal boost rectifier connected between VDL and BST2. 17 SW2 Switch Node for Channel 2. Connect to source of the high-side N-channel MOSFET and the drain of the low-side N-channel MOSFET of Channel 2. 18 DH2 High-Side Switch Gate Driver Output for Channel 2. Capable of driving MOSFETs with total input capacitance up to 20 nF. 19 PGND2 Power Ground for Channel 2. Ground for internal Channel 2 driver. Differential current is sensed between SW2 and PGND2. Use the Kelvin sensing connection technique between PGND2 and source of the low-side MOSFET. 20 DL2 Low-Side Synchronous Rectifier Gate Driver Output for Channel 2. To set the gain of the current sense amplifier, connect a resistor between DL2 and PGND2. Capable of driving MOSFETs with a total input capacitance up to 20 nF. 21 DL1 Low-Side Synchronous Rectifier Gate Driver Output for Channel 1. To set the gain of the current sense amplifier, connect a resistor between DL1 and PGND1. Capable of driving MOSFETs with a total input capacitance up to 20 nF. 22 PGND1 Power Ground for Channel 1. Ground for internal Channel 1 driver. Differential current is sensed between SW1 and PGND1. Use the Kelvin sensing connection technique between PGND1 and source of the low-side MOSFET. 23 DH1 High-Side Switch Gate Driver Output for Channel 1. Capable of driving MOSFETs with a total input capacitance up to 20 nF. 24 SW1 Power Switch Node for Channel 1. Connect to source of the high-side N-channel MOSFET and the drain of the low-side N-channel MOSFET of Channel 1. 25 BST1 Boot-Strapped Upper Rail of High Side Internal Driver for Channel 1. Connect a multilayer ceramic capacitor (0.1 µF to 0.22 µF) between BST1 and SW1. There is an internal boost diode or rectifier connected between VDL and BST1. 26 ILIM1 Current Limit Sense Comparator Inverting Input for Channel 1. Connect a resistor between ILIM1 and SW1 to set the current limit offset. For accurate current limit sensing, connect ILIM1 to a current sense resistor at the source of the low-side MOSFET. 27 PGOOD1 Power Good. Open-drain power-good indicator logic output with an internal 12 kΩ resistor connected between PGOOD1 and VCCO. PGOOD1 is pulled to ground when the Channel 1 output is outside the regulation window. An external pull-up resistor is not required. 28 SS1 Soft Start Input for Channel 1. Connect a capacitor from SS1 to AGND to set the soft start period. This node is internally pulled up to 5 V with a 6.5 µA current source. 29 RAMP1 Connect a resistor from RAMP1 to VIN to set up a ramp current for slope compensation in Channel 1. The voltage at RAMP2 is 0.2 V. This pin is high impedance when the channel is disabled. 30 COMP1 Compensation Node for Channel 1. Output of Channel 1 error amplifier. Connect a series resistor-capacitor network from COMP1 to AGND to compensate the regulation control loop. 31 FB1 Output Voltage Feedback for Channel 1. Connect to Output 1 via a resistor divider. 32 TRK1 Tracking Input for Channel 1. Connect TRK1 to VCCO if tracking is not used. 33 Exposed Pad Connect the bottom exposed pad of the LFCSP package to the system AGND plane. (EPAD) (EPAD) Rev. C | Page 8 of 32 Document Outline Features Applications General Description Typical Operation Circuit Revision History Specifications Absolute Maximum Ratings ESD Caution Simplified Block Diagram Pin Configuration and Function Descriptions Typical Performance Characteristics Theory of Operation Control Architecture Oscillator Frequency Modes of Operation Synchronization Synchronous Rectifier and Dead Time Input Undervoltage Lockout Internal Linear Regulator Overvoltage Protection Power Good Short-Circuit and Current-Limit Protection Shutdown Control Thermal Overload Protection Applications Information Setting the Output Voltage Soft Start Setting the Current Limit Accurate Current-Limit Sensing Setting the Slope Compensation Setting the Current Sense Gain Input Capacitor Selection Input Filter Boost Capacitor Selection Inductor Selection Output Capacitor Selection MOSFET Selection Loop Compensation (Single Phase Operation) Configuration and Loop Compensation (Dual-Phase Operation) Switching Noise and Overshoot Reduction Voltage Tracking Coincident Tracking Ratiometric Tracking Indepdendent Power Stage Input Voltage PCB Layout Guidelines MOSFETs, Input Bulk Capacitor, and Bypass Capacitor High Current and Current Sense Paths Signal Paths PGND Plane Feedback and Current-Limit Sense Paths Switch Node Gate Driver Paths Output Capacitors Typical Operating Circuits Outline Dimensions Ordering Guide
15 ILIM2 Current Limit Sense Comparator Inverting Input for Channel 2. Connect a resistor between ILIM2 and SW2 to set the current limit offset. For accurate current limit sensing, connect ILIM2 to a current sense resistor at the source of the low-side MOSFET. 16 BST2 Boot-Strapped Upper Rail of High Side Internal Driver for Channel 2. Connect a multilayer ceramic capacitor (0.1 µF to 0.22 µF) between BST2 and SW2. There is an internal boost rectifier connected between VDL and BST2. 17 SW2 Switch Node for Channel 2. Connect to source of the high-side N-channel MOSFET and the drain of the low-side N-channel MOSFET of Channel 2. 18 DH2 High-Side Switch Gate Driver Output for Channel 2. Capable of driving MOSFETs with total input capacitance up to 20 nF. 19 PGND2 Power Ground for Channel 2. Ground for internal Channel 2 driver. Differential current is sensed between SW2 and PGND2. Use the Kelvin sensing connection technique between PGND2 and source of the low-side MOSFET. 20 DL2 Low-Side Synchronous Rectifier Gate Driver Output for Channel 2. To set the gain of the current sense amplifier, connect a resistor between DL2 and PGND2. Capable of driving MOSFETs with a total input capacitance up to 20 nF. 21 DL1 Low-Side Synchronous Rectifier Gate Driver Output for Channel 1. To set the gain of the current sense amplifier, connect a resistor between DL1 and PGND1. Capable of driving MOSFETs with a total input capacitance up to 20 nF. 22 PGND1 Power Ground for Channel 1. Ground for internal Channel 1 driver. Differential current is sensed between SW1 and PGND1. Use the Kelvin sensing connection technique between PGND1 and source of the low-side MOSFET. 23 DH1 High-Side Switch Gate Driver Output for Channel 1. Capable of driving MOSFETs with a total input capacitance up to 20 nF. 24 SW1 Power Switch Node for Channel 1. Connect to source of the high-side N-channel MOSFET and the drain of the low-side N-channel MOSFET of Channel 1. 25 BST1 Boot-Strapped Upper Rail of High Side Internal Driver for Channel 1. Connect a multilayer ceramic capacitor (0.1 µF to 0.22 µF) between BST1 and SW1. There is an internal boost diode or rectifier connected between VDL and BST1. 26 ILIM1 Current Limit Sense Comparator Inverting Input for Channel 1. Connect a resistor between ILIM1 and SW1 to set the current limit offset. For accurate current limit sensing, connect ILIM1 to a current sense resistor at the source of the low-side MOSFET. 27 PGOOD1 Power Good. Open-drain power-good indicator logic output with an internal 12 kΩ resistor connected between PGOOD1 and VCCO. PGOOD1 is pulled to ground when the Channel 1 output is outside the regulation window. An external pull-up resistor is not required. 28 SS1 Soft Start Input for Channel 1. Connect a capacitor from SS1 to AGND to set the soft start period. This node is internally pulled up to 5 V with a 6.5 µA current source. 29 RAMP1 Connect a resistor from RAMP1 to VIN to set up a ramp current for slope compensation in Channel 1. The voltage at RAMP2 is 0.2 V. This pin is high impedance when the channel is disabled. 30 COMP1 Compensation Node for Channel 1. Output of Channel 1 error amplifier. Connect a series resistor-capacitor network from COMP1 to AGND to compensate the regulation control loop. 31 FB1 Output Voltage Feedback for Channel 1. Connect to Output 1 via a resistor divider. 32 TRK1 Tracking Input for Channel 1. Connect TRK1 to VCCO if tracking is not used. 33 Exposed Pad Connect the bottom exposed pad of the LFCSP package to the system AGND plane. (EPAD) (EPAD) Rev. C | Page 8 of 32 Document Outline Features Applications General Description Typical Operation Circuit Revision History Specifications Absolute Maximum Ratings ESD Caution Simplified Block Diagram Pin Configuration and Function Descriptions Typical Performance Characteristics Theory of Operation Control Architecture Oscillator Frequency Modes of Operation Synchronization Synchronous Rectifier and Dead Time Input Undervoltage Lockout Internal Linear Regulator Overvoltage Protection Power Good Short-Circuit and Current-Limit Protection Shutdown Control Thermal Overload Protection Applications Information Setting the Output Voltage Soft Start Setting the Current Limit Accurate Current-Limit Sensing Setting the Slope Compensation Setting the Current Sense Gain Input Capacitor Selection Input Filter Boost Capacitor Selection Inductor Selection Output Capacitor Selection MOSFET Selection Loop Compensation (Single Phase Operation) Configuration and Loop Compensation (Dual-Phase Operation) Switching Noise and Overshoot Reduction Voltage Tracking Coincident Tracking Ratiometric Tracking Indepdendent Power Stage Input Voltage PCB Layout Guidelines MOSFETs, Input Bulk Capacitor, and Bypass Capacitor High Current and Current Sense Paths Signal Paths PGND Plane Feedback and Current-Limit Sense Paths Switch Node Gate Driver Paths Output Capacitors Typical Operating Circuits Outline Dimensions Ordering Guide
