NSC LM2720M

LM2720
February 3, 2000
5-Bit Programmable, High Frequency Multi-phase PWM
Controller
General Description
The LM2720 provides an attractive solution for power supplies of high power microprocessors exhibiting ultra fast load
transients. Compared to a conventional single-phase supply,
an LM2720 based multi-phase supply distributes the thermal
and electrical loading among components in multiple phases
and greatly reduces the corresponding stress in each component. The LM2720 can be programmed to control either a
3-phase converter or a 4-phase converter. Phase shift among
the phases is 120° in the case of three phase and 90° with
four-phase. Because the power channels are out of phase,
there can be significant ripple cancellation for both the input
and output current, resulting in reduced input and output capacitor size. Due to the nominal operating frequency of 2 MHz
per phase, the size of the output inductors can be greatly reduced which results in a much faster load transient response
and a dramatically shrunk output capacitor bank. Microprocessor power supplies with all surface mount components
can be easily built.
The internal high speed transconductance amplifier guarantees good dynamic performance.
The internal master clock frequency of up to 8 MHz is set by
an external reference resistor. An external clock of 10 MHz
can also be used to drive the chip to achieve frequency control
and multi-chip operation.
The LM2720 also provides input under-voltage lock-out with
hysteresis, input over-current protection and output voltage
power good detection.
Features
■
■
■
■
■
■
■
■
■
■
■
■
Ultra fast load transient response
Enables all surface-mount-design
Selectable 2, 3, 4 phase operation
Clock frequency from 40 kHz to 10 MHz
Precision load current sharing
5-bit programmable from 3.5V to 1.3V
VID code compatible to VRM 8.X specification
Output voltage is 2.0V for VID code 11111
Selectable internal or external clock
Digital 16-step soft start
Input under-voltage lock-out, over-current protection
Open-drain power good signal output
Applications
■ Servers and workstations
■ High current, ultra-fast transient microprocessors
Pin Configuration
24-Pin Plastic SOIC
10132201
Top View
See NS Package Number M24B
© 2009 National Semiconductor Corporation
101322
101322 Version 3 Revision 1
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Print Date/Time: 2009/03/26 20:37:33
LM2720 5-Bit Programmable, High Frequency Multi-phase PWM Controller
OBSOLETE
LM2720
Storage Temperature
ESD Susceptibility (Note 8)
Soldering Time, Temperature
Absolute Maximum Ratings (Note 1)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
VCC5V
PWRGD
VCC12V
Junction Temperature
Power Dissipation (Note 2)
−65°C to +150°C
2 kV
10 sec., 300°C
Operating Ratings
7V
(VCC 5V + 0.2V)
20V
125°C
1.6W
(Note 1)
VCC 5V
VCC 12V
Junction Temperature Range
4.5V to 5.5V
10V to 18V
0°C to 70°C
Electrical Characteristics
VCC5V = 5V, VCC12V = 12V unless otherwise specified. Typicals and limits appearing in plain type apply for TA = TJ = +25°C. Limits
appearing in boldface type apply over the entire operating temperature range.
Symbol
Parameter
Conditions
VDACOUT
5-bit DAC Output Voltage
(Note 3)
ICC12V
Quiescent VCC12V Current
Enable = 5V, VID = 00001, DRV
Outputs Floating
ICC5V
Operating VCC5V Current
VOUT = 2.00V
VREF
Rref Pin Voltage
VINL
Vid0:4, Clksel, Divsel, and Enable Logic Low (Note 4)
Pins Logic Threshold
Logic High (Note 5)
VINH
Typ
Max
Units
N
N+1.5%
V
1
2
mA
4.3
8
mA
1.225
Vid0:4 and Enable Pins Internal
Pullup Current
IINL
Min
N−1.5%
Clksel, Divsel Pins Internal Pullup
Current
The Corresponding Pin = 0V
1.8
V
1.5
3.5
2.8
60
100
140
−10
0
10
V
V
µA
12
Ω
VCC12V −
1.5V
VCC12V
−1.0V
V
7
ns
DRV0:3 = 0V, VCC12V = 14V
40
60
mA
DRV0:3 Sink Current
DRV0:3 = 5V, VCC12V = 14V
90
160
BgOUT Voltage
Current Limit Not Activated
4
Current Limit Activated
0
Gate Driver Resistance When
Sinking Current
ISINK = 50 µA, VCC12V = 14V
VDRV
DRV0:3 Output Voltage
IDRV = 10 mA, VCC12V = 14V
tfall
DRV0:3 Fall Time
(Note 6)
ISRC
DRV0:3 Source Current
ISINK
VBgOUT
V
BgOUT Sink Current
BgOUT = 1V
IFB
FB Pin Bias Current
FB = 2V
FOSC
Oscillator Frequency
8.02kΩ from Rref Pin to Ground
7.0
8.7
MHz
ΔD
DRV0:3 Duty Cycle Match
Duty Cycle = 50%
−1
+1
%
Δph
DRV0:3 Phase Accuracy
Duty Cycle = 50%, Fclock = 8 MHz
−1
+1
Deg
VPWRGD
PWM Off time
Power Good Detection Window,
ΔVOUT
2.4
mA
IBgOUT
Toff
1.0
250
8.0
Divide by 4
22
Divide by 3
22
1.3V ≤ VOUT ≤ 1.9V
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30
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±100
mA
nA
%
mV
Parameter
Conditions
Min
Hysteresis
Typ
Max
Units
50
Power Good Detection Window,
ΔVOUT
2V ≤ VOUT ≤ 3.5V
±150
Hysteresis
50
IPWRGD
Power Good Sink Current
VOCC_CM
Over-current Comparator
Common Mode Range
IB_OC+
OC+ Input Bias Current
VIN = 5V, OC+ = 5V, OC− = 4V
100
IB_OC−
OC− Input Bias Current
VIN = 5V, OC+ = 6V, OC− = 5V
85
VOS_OCC
Over-current Comparator Input
Offset Voltage
VIN = 5V
2
DMAX
Maximun Duty Cycle
FB = 0V
gm
Error Amplifier Transconductance
Vramp
Ramp Signal Peak-to-Peak
Amplitude
Icomp
COMP Pin Source Current
250
360
550
µA
Icomp
COMP Pin Sink Current
160
260
400
µA
Vcomp_hi
COMP Pin High Clamp
2.9
V
Vcomp_lo
COMP Pin Low Clamp
0.19
V
VPOR
Power On Reset Trip Point
tSS
VPWRGD = 0.4V
0.8
1
VIN = 12V
mA
12
V
145
200
µA
120
165
µA
16
42
3
21
mV
78
%
1.36
mmho
2
V
Vcc5V Pin Voltage Rising
4.0
Vcc5V Pin Voltage Falling
3.6
V
Vcc12V Minimum Working Voltage (Note 7)
3.8
V
Soft Start Delay
1.6
ms
FOSC = 8MHz
Note 1: Absolute Maximum Ratings are limits beyond which damage to the device may occur. Operating ratings do not imply guaranteed performance limits.
Note 2: Maximum allowable power dissipation is a function of the maximum junction temperature, TJMAX, the junction-to-ambient thermal resistance, θJA, and the
ambient temperature, TA. The maximum allowable power dissipation at any ambient temperature is calculated using: PMAX = (TJMAX − TA)/θJA. The junction-toambient thermal resistance, θJA, for LM2720 is 78°C/W. For a TJMAX of 150°C and TA of 25°C, the maximum allowable power dissipation is 1.6W.
Note 3: The letter N stands for the typical output voltages appearing in italic boldface type in Table 1.
Note 4: Max value of logic low means any voltage below this value is guaranteed to be taken as logic low whereas a voltage higher than this value is not guaranteed
to be taken as a logic low.
Note 5: Min value of logic high means any voltage above this value is guaranteed to be taken as logic high whereas a voltage lower than this value is not
guaranteed to be taken as a logic high.
Note 6: When driving bipolar FET drivers in the typical application circuit.
Note 7: When Vcc12V pin goes below this voltage, all DRV pins go to 0V.
Note 8: ESD ratings is based on the human body model, 100pF discharged through 1.5kΩ.
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LM2720
Symbol
LM2720
TABLE 1. 5-Bit DAC Output Voltage Table
Symbol
VDACOUT
Parameter
Conditions
5-Bit DAC Output Voltages for Different VID Codes
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Typical
Units
VID4:0 = 01111
1.30
V
VID4:0 = 01110
1.35
VID4:0 = 01101
1.40
VID4:0 = 01100
1.45
VID4:0 = 01011
1.50
VID4:0 = 01010
1.55
VID4:0 = 01001
1.60
VID4:0 = 01000
1.65
VID4:0 = 00111
1.70
VID4:0 = 00110
1.75
VID4:0 = 00101
1.80
VID4:0 = 00100
1.85
VID4:0 = 00011
1.90
VID4:0 = 00010
1.95
VID4:0 = 00001
2.00
VID4:0 = 00000
2.05
VID4:0 = 11111
2.0
VID4:0 = 11110
2.1
VID4:0 = 11101
2.2
VID4:0 = 11100
2.3
VID4:0 = 11011
2.4
VID4:0 = 11010
2.5
VID4:0 = 11001
2.6
VID4:0 = 11000
2.7
VID4:0 = 10111
2.8
VID4:0 = 10110
2.9
VID4:0 = 10101
3.0
VID4:0 = 10100
3.1
VID4:0 = 10011
3.2
VID4:0 = 10010
3.3
VID4:0 = 10001
3.4
VID4:0 = 10000
3.5
4
101322 Version 3 Revision 1
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LM2720
Pin Description
Pin
Pin Name
Pin Function
1
Vcc5V
Supply Voltage Input (5V nominal)
2
Divsel
Selects Phase Mode. Logic low selects 4 phase. Logic high selects 3 phase. 2 phase operation is
achieved by using 2 outputs in 4 phase mode.
3
Clksel
Clock Select: Logic high selects internal clock. Logic low selects external clock.
4
Extclk
External Clock Input. Output frequency = Clock Input / No. of Phases. Connect to Vcc5V to select internal
clock.
5
Rref
Connects to external reference resistor. Sets the operating frequency of the internal clock and the ramp
time for the PWM. Reference voltage at this pin is 1.26V.
6
Vid0
5-Bit DAC Input (LSB).
7
Vid1
5-Bit DAC Input.
8
Vid2
5-Bit DAC Input.
9
Vid3
5-Bit DAC Input.
10
Vid4
5-Bit DAC Input (MSB)
11
OC+
Over-current Comparator. Non-inverting input.
12
OC−
Over-current Comparator. Inverting input.
13
COMP
Compensation Pin. This is the output of the internal transconductance amplifier. Compensation network
should be connected between this pin and feedback ground FBG.
14
FB
Feedback Input. Normally Kelvin connected to supply output.
15
Bgout
Current Limit Flag. Goes to logic low when current limit is activated. When over-current condition is
removed, this pin is weakly pulled up to Vcc5V.
16
FBG
Feedback Ground. This pin should be connected to the ground at the supply output.
17
ENABLE
Output Enable Pin. Tie to logic high to enable and logic low to disable.
18
GND
Power Ground Pin.
19
DRV2
Phase 2 Output.
20
DRV0
Phase 0 Output.
21
Vcc12V
Supply Voltage for FET Drivers DRV0:3.
22
DRV1
Phase 1 Output.
23
DRV3
Phase 3 Output.
24
PWRGD
Power Good. This is an open-drain output that goes low (low impedance to ground) when the output
voltage travels out of the threshold window, and resume to open-drain state when VOUT recovers into
the 50mV hysteresis window. The power good window threshold, i.e. ±100mV for 1.3V ≤ VOUT ≤ 1.9V
or ±150mV for 2V ≤ VOUT ≤ 3.5V, is automatically set according to VID code. Connect a 1nF capacitor
to ground to filter out the switching noise coupling from DRV3 to this pin.
5
101322 Version 3 Revision 1
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LM2720
Block Diagram
10132202
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101322 Version 3 Revision 1
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LM2720
FIGURE 1.
10132203
Typical Application
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101322 Version 3 Revision 1
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LM2720
Physical Dimensions inches (millimeters) unless otherwise noted
24-Lead Small Outline Package
Order Number LM2720M
NS Package Number M24B
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101322 Version 3 Revision 1
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LM2720
Notes
9
101322 Version 3 Revision 1
Print Date/Time: 2009/03/26 20:37:33
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LM2720 5-Bit Programmable, High Frequency Multi-phase PWM Controller
Notes
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