NCP4200MNR2G ON Semiconductor, NCP4200MNR2G Datasheet

IC CONV SYNC BUCK PMBUS 40QFN

NCP4200MNR2G

Manufacturer Part Number
NCP4200MNR2G
Description
IC CONV SYNC BUCK PMBUS 40QFN
Manufacturer
ON Semiconductor
Datasheet
1.NCP4200MNR2G.pdf (32 pages)

Specifications of NCP4200MNR2G

Applications
Converter, Intel VR11, VR11.1
Voltage - Input
1.7 ~ 24 V
Number Of Outputs
1
Voltage - Output
0.375 ~ 1.8 V
Operating Temperature
0°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
40-VFQFN Exposed Pad
Output Voltage
0.375 V to 1.6 V
Output Current
500 uA
Input Voltage
1.7 V to 24 V
Switching Frequency
0.25 MHz to 6 MHz
Operating Temperature Range
0 C to + 85 C
Mounting Style
SMD/SMT
Duty Cycle (max)
100 %
Isolated/non-isolated
Non Isolated
Lead Free Status / RoHS Status
Lead free / RoHS Compliant

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
Bonase Electronics (HK) Co., Limited Bonase Electronics (HK) Co., Limited
Part Number:
NCP4200MNR2G
Manufacturer:
PHILIPS
Quantity:
124
NCP4200
Programmable Multi-Phase
Synchronous Buck
Converter with I
Interface
interface. It combines a highly efficient, multi−phase, synchronous
buck switching regulator controller with an I
enables digital programming of key system parameters to optimize
system performance and provide feedback to the system.
code directly from the processor, which is used to set the output
voltage between 0.375 V and 1.6 V.
logic−level outputs at a programmable switching frequency that can
be optimized for VR size and efficiency. The NCP4200 can be
programmed to provide 2−, 3−, or 4−phase operation, allowing for the
construction of up to four complementary buck−switching stages. The
NCP4200 supports PSI, which is a Power Save Mode.
program system set points such as voltage offset, load−line and phase
balance and output voltage. Key system performance data, such as
CPU current, CPU voltage, and power and fault conditions can also be
read back over the I
temperature range of 0°C to +85°C and is available in a 40 Lead QFN
package.
Features
Applications
© Semiconductor Components Industries, LLC, 2011
February, 2011 − Rev. 2
The NCP4200 is an integrated power control IC with an I
It uses an internal 8−bit DAC to read a Voltage Identification (VID)
This device uses a multi−mode PWM architecture to drive the
The NCP4200 includes an I
The NCP4200 is specified over the extended commercial
Read−back of Monitored Values
Power Drivers
(OTF) VID Code Changes
VR11 and VR11.1 Specifications
Latchoff Delay
Selectable 2−, 3−, or 4−Phase Operation at Up to 1.5 MHz per Phase
I
Logic−Level PWM Outputs for Interface to External High
Fast−Enhanced PWM for Excellent Load Transient Performance
Active Current Balancing Between All Output Phases
Built−In Power−Good/Crowbar Blanking Supports On−The−Fly
Digitally Programmable 0.375 V to 1.6 V Output Supports Both
Programmable Short−Circuit Protection with Programmable
Supports PSI – Power Saving Mode During Light Loads
Desktop PC Power Supplies for VRM Modules
2
C Interface − Enables Digital Programmability of Set Points and
2
C from the NCP4200.
2
C interface which can be used to
2
C
2
C interface, which
1
2
C
†For information on tape and reel specifications,
NCP4200MNR2G
including part orientation and tape sizes, please
refer to our Tape and Reel Packaging Specifications
Brochure, BRD8011/D.
ALERT
FAULT
IMON
VCC3
IREF
GND
SDA
SCL
EN
RT
Device
ORDERING INFORMATION
1
2
3
4
5
6
7
8
9
10
A
WL
YY
WW
G
MARKING DIAGRAM
1
http://onsemi.com
PIN ASSIGNMENT
40
PIN 1
INDICATOR
AWLYYWWG
= Assembly Location
= Wafer Lot
= Year
= Work Week
= Pb−Free Package
NCP4200
NCP4200
(Pb−Free)
Package
TOP VIEW
QFN40
Publication Order Number:
CASE 488AR
QFN40 6x6
2500/Tape & Reel
Shipping
30
29
28
27
26
25
24
23
22
21
NCP4200/D
VCC
PWM1
PWM2
PWM3
PWM4
SW1
SW2
SW3
SW4
OD1

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NCP4200MNR2G Summary of contents

Page 1

... Supports PSI – Power Saving Mode During Light Loads Applications • Desktop PC Power Supplies for VRM Modules © Semiconductor Components Industries, LLC, 2011 February, 2011 − Rev interface, which NCP4200MNR2G †For information on tape and reel specifications, 1 http://onsemi.com QFN40 6x6 CASE 488AR 1 40 MARKING DIAGRAM NCP4200 AWLYYWWG A ...

Page 2

LIMIT 2 ALERT REGISTERS COMPARATOR 3 FAULT STATUS REGISTERS UVLO SHUTDOWN 850mV GND 7 – Overvoltage Threshold – CSREF + + Undervoltage Threshold – PWRGD 40 DELAY ILIMITFS 19 IREF 9 COM 14 TRDET + 12 Voltage ...

Page 3

ODN VID7 VID6 ILIMFS CSCOMP VID5 CSSUM VID4 CSREF VID3 FB VID2 COMP VID1 VID0 FBRTN PSI TRDET RAMPADJ PWRGD 4.7uF Figure 2. Application Circuit http://onsemi.com 3 ...

Page 4

ABSOLUTE MAXIMUM RATINGS Parameter Input Voltage Range (Note 1) FBRTN PWM2 to PWM4, RAMPADJ SW1 to SW4 SW1 to SW4 (< 200 ns) All Other Inputs and Outputs Storage Temperature Range Operating Ambient Temperature Range ESD Capability, Human Body Model ...

Page 5

PIN FUNCTION DESCRIPTIONS Pin No Mnemonic 1 VCC3 3.3 V Power Supply Output. A capacitor from this pin to ground provided decoupling for the interval 3.3 V LDO. 2 ALERT ALERT Output. Open drain output that asserts low when the ...

Page 6

ELECTRICAL CHARACTERISTICS (Note 1 and 3). Parameter Symbol REFERENCE CURRENT Reference Bias Voltage V IREF Reference Bias Current I IREF ERROR AMPLIFIER Output Voltage Range (Note 1) V COMP Accuracy V V FB(BOOT) Load Line Positioning Accuracy Load Line Range ...

Page 7

ELECTRICAL CHARACTERISTICS (Note 1 and 3). Parameter Symbol PSI Input Low Voltage Input High Voltage Input Current Assertion Timing De−assertion Timing TRDET Output Low Voltage V IMON Clamp Voltage Accuracy Output Current Offset CURRENT LIMIT COMPARATOR I Bias Current I ...

Page 8

ELECTRICAL CHARACTERISTICS (Note 1 and 3). Parameter Symbol POWER−GOOD COMPARATOR Undervoltage Threshold V PWRGD(UV) Undervoltage Adjustment Range Low Undervoltage Adjustment Range High Overvoltage Threshold V PWRGD(OV) Overvoltage Adjustment Range Low Overvoltage Adjustment Range High Output Low Voltage V OL(PWRGD) Power ...

Page 9

ELECTRICAL CHARACTERISTICS (Note 1 and 3). Parameter Symbol SUPPLY VCC (Note 1) DC Supply Current UVLO Turn−On Current UVLO Threshold Voltage V UVLO Turn−Off Voltage VCC3 Output Voltage VCC3 1. Refer to Electrical Characteristics and Application Information for Safe Operating ...

Page 10

VCC3 ALERT FAULT SDA SDL +1. GND IMON IREF RT 121 k W Figure 4. Closed−Loop Output Voltage Accuracy 12 V ADP4200 680 W 680 W VCC 30 CSCOMP 18 100 CSSUM 17 1 ...

Page 11

Description The NCP4200 Phase DC−DC regulator with an I Interface. A typical application circuit is shown in Figure 2. Startup Sequence The NCP4200 follows the startup sequence shown in Figure 7. After both the EN and UVLO ...

Page 12

Figure 8 shows typical startup waveforms for the NCP4200. Figure 8. Typical Startup Waveforms Phase Detection During startup, the number of operational phases and their phase relationship is determined by the internal circuitry that monitors the PWM outputs. Normally, the ...

Page 13

The CPU current can also be monitored over the I Interface. The current limit and the load−line can be adjusted from the circuit component values over the I Current Limit Set−Point The current limit threshold on the NCP4200 is programmed ...

Page 14

From the Current Limit Set−point paragraph we know the following LOAD I + ILIMFS R LIMIFS LOAD IMON R LIMFS For a 150 A current limit kW. Assuming ...

Page 15

The value of R can be found using the following B equation VID ONL offset voltage can be added to the control voltage over the serial interface. This is done using ...

Page 16

The PWRGD circuitry also incorporates an initial turn−on delay time (TD5). Prior to the SS voltage reaching the programmed VID DAC voltage and the PWRGD masking time finishing, the PWRGD pin is held low. Once the SS circuit reaches the ...

Page 17

ICC (UVLO) Figure 10. Typical Shunt Resistor Value and Power Dissipation for Different UVLO Voltage The maximum power dissipated is calculated using Equation IN(MAX) ...

Page 18

SCL SDA START BY MASTER SCL SDA START BY MASTER 1 SCL SDA 1 1 START BY MASTER SERIAL BUS ADDRESS BYTE 1 SCL SDA 1 1 REPEATED START BY MASTER SERIAL BUS ADDRESS BYTE Write Operations The following abbreviations ...

Page 19

For the NCP4200, the send byte protocol is used to clear faults. This operation is shown in Figure 14 COMMAND SLAVE CODE ADDRESS Figure 14. Send Byte Command If the master is required ...

Page 20

Read Word In this operation, the master device receives two data bytes from a slave device as follows: 1. The master device asserts a start condition on SDA. 2. The master sends the 7−bit slave address followed by the write ...

Page 21

Table 10. VR11.1 and VR11 x VID CODES for the NCP4200 OUTPUT VID7 VID6 1.55625 0 1.55000 0 1.54375 0 1.53750 0 1.53125 0 1.52500 0 1.51875 0 1.51250 0 1.50625 0 1.50000 0 1.49375 0 1.48750 0 1.48125 0 ...

Page 22

Table 10. VR11.1 and VR11 x VID CODES for the NCP4200 OUTPUT VID7 VID6 1.28750 0 1.28125 0 1.27500 0 1.26875 0 1.26250 0 1.25625 0 1.25000 0 1.24375 0 1.23750 0 1.23125 0 1.22500 0 1.21875 0 1.21250 0 ...

Page 23

Table 10. VR11.1 and VR11 x VID CODES for the NCP4200 OUTPUT VID7 VID6 1.01875 0 1.01250 0 1.00625 0 1.00000 0 0.99375 0 0.98750 0 0.98125 0 0.97500 0 0.96875 0 0.96250 0 0.95625 0 0.95000 0 0.94375 0 ...

Page 24

Table 10. VR11.1 and VR11 x VID CODES for the NCP4200 OUTPUT VID7 VID6 0.75000 1 0.74375 1 0.73750 1 0.73125 1 0.72500 1 0.71875 1 0.71250 1 0.70625 1 0.70000 1 0.69375 1 0.68750 1 0.68125 1 0.67500 1 ...

Page 25

Table 11 Commands for the NCP4200 Cmd R/W Default Description Code 0x01 R/W 0x80 Operation 0x02 R/W 0x17 ON_OFF_Config 0x03 W NA Clear_Faults 0x10 R/W 0x00 Write Protect 0x19 R 0xB0 Capability 0x20 R 0x20 VOUT_MODE 0x21 ...

Page 26

Cmd R/W Default Description Code 0x26 R/W 0x00B2 VOUT_MARGIN_LOW 0x38 R/W 0x0001 IOUT_CAL_GAIN 0x39 R/W 0x0000 IOUT_CAL_OFFSET 0x4A R/W 0x0064 IOUT_OC_WARN_LIMIT 0x68 R/W 0x012C POUT_OP_FAULT_LIMIT 0x6A R/W 0x012C POUT_OP_WARN LIMIT 0x78 R 0x00 STATUS BYTE 0x79 R 0x0000 STATUS WORD ...

Page 27

Cmd R/W Default Description Code 0x7A R 0x00 STATUS VOUT 0x7B R 0x00 STATUS IOUT 0x7E R 0x00 STATUS CML # Comment Bytes High 3 POWER_ GOOD High 2 Res High 1 OTHER High 0 Res 1 Bit Name 7 ...

Page 28

Cmd R/W Default Description Code 0x80 R 0x00 STATUS_ALERT 0x88 R 0x00 0x8B R 0x00 READ_VOUT 0x8C R 0x00 READ_IOUT 0x8D R 0x00 0x96 R 0x00 READ_POUT 0x99 R 0x4101 MFR_ID 0x9A R 0x0002 MFR_MODEL 0x9B R 0x0301 MFR_REVISION Table ...

Page 29

Cmd R/W Default Description Code 0xD2 R/W 0x52 VR Config. 1A 0xD3 R/W 0x52 VR Config. 1B 0xD4 R/W 0x03 Ton Delay 0xD5 R/W 0x02 Ton Rise 0xD6 R/W 0x01 Ton Transition 0xD8 R 0x00 EN/VTT Voltage 0xDA R 0x00 ...

Page 30

Cmd R/W Default Description Code 0xDF R/W 0x00 Load−line Set 0xE0 R/W 0x00 PWRGD Hi Threshold 0xE1 R/W 0x00 PWRGD Lo Threshold 0xE2 R/W 0x10 Current Limit Threshold 0xE3 R/W 0x10 Phase Bal SW1 0xE4 R/W 0x10 Phase Bal SW2 ...

Page 31

Cmd R/W Default Description Code 0xFA R/W 0x00 Mask FAULT 0xFB R 0x00 General Status 0xFC R 0x00 Phase Status # Comment Bytes 3 Mask CML Masks any ALERT caused by bits in Status CML Register Masks any ...

Page 32

... Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. N. American Technical Support: 800−282−9855 Toll Free USA/Canada Europe, Middle East and Africa Technical Support: Phone: 421 33 790 2910 Japan Customer Focus Center Phone: 81− ...

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