MPS MP8040

TM
MP8040
High Current
Integrated Half Bridge + Driver
The Future of Analog IC Technology
TM
DESCRIPTION
FEATURES
The MP8040 is a general purpose, high
frequency half bridge power driver capable of
driving a 9A load. The devices integrates both
top and bottom N-Channel MOSFET power
switches and is fully protected from both
sourcing and sinking current by a preset
cycle-by-cycle current limit. It has a wide input
voltage range from 7.5V to 25V.
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The MP8040 features a low-current shutdown
mode, input under-voltage protection, thermal
shutdown, and fault flag signal output. It
interfaces with standard logic signals and is
available in a small 8-pin SOIC with exposed
pad package.
APPLICATIONS
•
EVALUATION BOARD REFERENCE
Board Number
Dimensions
EV0041
3.5”X x 3.5”Y x 1.2”Z
±9A Peak Current Output
±4.25A Continuous Current Output
Up to 1.2MHz Switching Frequency
Protected Integrated Power 100mΩ Switches
All Switches Current Limited
Integrated Under-Voltage Protection
Integrated Thermal Protection
2.5µA Standby Mode
True 2-Quadrant Operation
Sources and Sinks Current
Fault Indicator Output
•
•
Class D Audio Driver
o 25W/4Ω/10% Output Power Single Ended
o 70W/4Ω/10% Output Power Full Bridge
Full or Half Bridge DC-DC Switching Regulator
Motor Driver
“MPS” and “The Future of Analog IC Technology” are Trademarks of
Monolithic Power Systems, Inc.
TYPICAL APPLICATION
VSP
2
7
FAULT
ENABLE
PWM
SIGNAL
8
6
1
+
SP
DRV
FLT
MP8040
SHDN
BS
PWM
SW
GND
5
3
47nF
VOUT
4
MP8040_TAC_S01
MP8040 Rev. 1.5
5/3/2005
www.MonolithicPower.com
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© 2005 MPS. All Rights Reserved.
1
TM
MP8040 – HIGH CURRENT INTEGRATED HALF BRIDGE + DRIVER
ABSOLUTE MAXIMUM RATINGS (1)
PACKAGE REFERENCE
SP Supply Voltage (VSP).............................. 28V
SW Pin Voltage .............................. –0.3V to VSP
SW to BS ....................................... –0.3V to +6V
Voltage at All Other Pins ............... –0.3V to +6V
Storage Temperature .............. –55°C to +150°C
TOP VIEW
PWM
1
8
FLT
SP
2
7
DRV
SW
3
6
SHDN
GND
4
5
BS
EXPOSED PAD
ON BACKSIDE
CONNECT TO PIN 4
Recommended Operating Conditions
(2)
SP Supply Voltage (VSP).................. 7.5V to 24V
Peak Output Current...................... 9A Maximum
Operating Temperature ............. –40°C to +85°C
MP8040_PD01-SOIC8N
Thermal Resistance
(3)
θJA
θJC
SOIC8N .................................. 50 ....... 8.... °C/W
Part Number*
MP8040DN
*
Package
SOIC8N
(Exposed Pad)
Temperature
–40°C to +85°C
For Tape & Reel, add suffix –Z (eg. MP8040DN–Z)
For Lead Free, add suffix –LF (eg. MP8040DN–LF–Z)
Notes:
1) Exceeding these ratings may damage the device.
2) The device is not guaranteed to function outside of its
operating conditions.
3) Measured on approximately 1” square of 1 oz copper.
ELECTRICAL CHARACTERISTICS
VSP = 12V, VSHDN = 0V, TA = +25°C, unless otherwise noted.
Parameter
SP Operating Current
SP Shutdown Current
SHDN, SP Threshold Low
SHDN, SP Threshold High
SHDN, SP Input Bias Current
SW On Resistance
SW Current Limit
(4)
SW Switching Frequency
SW Maximum Duty Cycle
(5)
SW Rise/Fall Time
PWM Pulse Width
PWM to SW Delay Time Rising
PWM to SW Delay Time
Falling
Thermal Shutdown
Temperature (4)
Symbol Condition
Min
VSHDN = 2V
Typ
1.5
2.5
Max
2.5
10
1
2
VSP = 7.5V, High-Side and Low-Side
VPWM = 5, (Sinking)
VPWM = 0, (Sourcing)
VPWM = 0 to 2V, 50% Duty Cycle
VSP = 7.5V, VPWM = 2V, CSW 100nF,
fSW = 3.3KHz
VPWM = 0 to 5V
VPWM = 0 to 2V, High or Low Pulse
VPWM = 0 to 5V
1
0.1
9
9
1.2
Units
mA
µA
V
V
µA
Ω
A
A
MHz
99.5
%
20
70
ns
ns
ns
VPWM = 5 to 0V
70
ns
TJ Rising, Hysteresis = 20°C
160
°C
200
Notes:
4) Guaranteed by design; not production tested.
5) SW drives low for 1.5µs every 300µs to charge the BS to SW capacitor.
MP8040 Rev. 1.5
5/3/2005
www.MonolithicPower.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited.
© 2005 MPS. All Rights Reserved.
2
TM
MP8040 – HIGH CURRENT INTEGRATED HALF BRIDGE + DRIVER
TYPICAL PERFORMANCE CHARACTERISTICS
Circuit of Figure 4, TA = +25°C, unless otherwise noted.
Delay Time
SW Falling (VSP=8V)
Delay Time
SW Rising (VSP=8V)
VPWM
2V/div.
VPWM
2V/div.
VSW
5V/div.
VSW
5V/div.
10.0ns/div.
10.0ns/div.
MP8040-TPC01
MP8040-TPC02
Delay Time
SW Falling (VSP=25V)
Delay Time
SW Rising (VSP=25V)
VPWM
2V/div.
VPWM
2V/div.
VSW
10V/div.
VSW
10V/div.
10.0ns/div.
10.0ns/div.
MP8040-TPC03
MP8040-TPC04
THD+N (%)
20
2
1
0.2
0.1
0.02
0.01
200m
1 2
10 20
OUTPUT POWER (W)
100
MP8040-TPC05
MP8040 Rev. 1.5
5/3/2005
www.MonolithicPower.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited.
© 2005 MPS. All Rights Reserved.
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TM
MP8040 – HIGH CURRENT INTEGRATED HALF BRIDGE + DRIVER
PIN FUNCTIONS
Pin #
Name
1
PWM
2
SP
3
SW
4
GND
5
BS
6
SHDN
7
DRV
8
FLT
Description
Driver Logic Input. Drive PWM with the signal that controls the MP8040 output. Drive PWM
high to turn on the high-side switch; drive PWM low to turn on the low-side switch.
Power Supply Input. Connect SP to the positive side of the input power supply. Bypass SP
to GND as close to the IC as possible.
Switched Output. SW is the power output of the MP8040. Connect the output LC filter to
SW. SW is valid approximately 100µs after SP goes high.
Ground. (Note: Connect the exposed pad on the bottom side to Pin 4).
Bootstrap Supply. BS powers the high-side gate of the MP8040. Connect a 0.1µF or
greater capacitor between BS and SW.
Shutdown Input. SHDN enables/disables the MP8040. Drive SHDN low to turn on the
MP8040, drive it high to turn it off. If not used, connect SHDN to GND.
Gate Drive Supply Bypass. The voltage at DRV is supplied from an internal regulator from
SP. DRV powers the internal circuitry and internal MOSFET gate drives. Bypass DRV to
GND with a 0.1µF to 10µF capacitor.
Fault Output. Active-low, open drain. A low output at FLT indicates that the MP8040 has
detected a fault and has shutdown. Connect FLT to DRV through a 100kΩ resistor.
OPERATION
The MP8040 is a general purpose, power
driver. It takes a logic input and drives a half
bridge comprised of 0.1Ω high-side and
low-side N-Channel MOSFET switches.
It operates at frequencies up to 1.2MHz, can
accept a DC supply voltage as high as 25V,
and produce peak output current as high as 9A.
5 BS
DBS
BS
UVLO
INTERNAL
5V REG.
CURRENT
LIMIT &
FEEDBACK
DRV
THERMAL
SHUTDOWN
UVLO
2 SP
7
HI DRIVE
PWM
1
FLT
8
SHDN
6
3 SW
LOGIC
LO DRIVE
4 GND
MP8040_F02
Figure 1—Function Block Diagram
MP8040 Rev. 1.5
5/3/2005
www.MonolithicPower.com
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© 2005 MPS. All Rights Reserved.
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TM
MP8040 – HIGH CURRENT INTEGRATED HALF BRIDGE + DRIVER
SW Output
The SW output drives the load. It is controlled
by the logic input signal at PWM. When the
signal at PWM is high (above 2V), the high-side
switch is turned on. When the signal at PWM is
low (less than 0.4V), the low-side switch is
turned on.
The MP8040 uses internal N-Channel
MOSFETs for both the high-side and low-side
switches. The high-side MOSFET gate drive is
powered from the voltage between SW and BS,
allowing BS to rise above the SP input voltage
to power the high-side MOSFET. To do this a
bootstrap capacitor is connected between SW
and BS. When the low-side switch is on, the
capacitor is internally charged from the voltage
at DRV, which is also internally generated.
There is a dead time region (typically 40ns)
where both the upper and lower switches are
off (see Figure 2).
Thermal Shutdown
The MP8040 includes a thermal overload
protection circuit. If the die temperature rises
above 160°C, the output switches are turned off
and the fault output is asserted. Once the
thermal overload circuit is tripped, the die
temperature must drop below 140°C before
automatically restarting.
VSP
2
SP
MP8040
SW
3
GND
4
SW
Both the high-side and low-side switches have
internal current limits to prevent failure due to
excessive load current. Once the current limit is
reached, both output switches are turned off
and the fault output is asserted (driven low).
Shutdown
The MP8040 includes a 2.5µA shutdown mode.
When SHDN is high, both output switches are
turned off and the input current drops to 2.5µA.
When the MP8040 is shutdown, the internally
generated voltage at DRV drops to 0V, and the
fault output (FLT) is asserted (driven low). If the
shutdown mode is not used, connect SHDN
directly to GND.
Fault Output
The MP8040 includes a fault indicator output
(FLT). This is an active-low open drain output.
The MP8040 detects faults due to over-current
(>9A), over-temperature (>160°C), undervoltage at SP (<6.5V), or if the part is disabled.
Connect FLT to DRV or to an external voltage
up to 6V through a 27kΩ or greater resistor.
When any of the 3 fault conditions are detected,
both output switches are turned off and the SW
output is high-impedance.
MP8040 Rev. 1.5
5/3/2005
VSP
3/4 VSP
1/2 VSP
1/4 VSP
TIME
DT (RISE)
DT (FALL)
DEAD TIME RISING = 20ns
DEAD TIME FALLING = 40ns
MP8040_F01
Figure 2—Dead Time
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© 2005 MPS. All Rights Reserved.
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TM
MP8040 – HIGH CURRENT INTEGRATED HALF BRIDGE + DRIVER
TYPICAL APPLICATION CIRCUITS
VSP
VSP
7
2
+
2
7
SP
DRV
BS
BS
5
8
ENABLE
PWM
SIGNAL
6
1
FLT
FAULT
FLT
MP8040
SHDN
PWM
CONTROLLER
SW
5
MP8040
6
SHDN
ENABLE
SW
3
VOUT
1
3
PWM
SIGNAL
+
FAULT
8
+
SP
DRV
PWM
GND
4
PWM
GND
4
MP8040_F03
MP8040_F04
Figure 3—Single Ended Audio Amplifier
Figure 4—General Purpose DC to DC
Converter
VSP
VSP
+
BS
FAULT
ENABLE
8
FLT
7
SP
DRV
3
ENABLE
1
DIGITAL
AUDIO
SIGNAL
DRV
BS
FAULT
SW
SP
5
MP8040
6
SHDN
8
FLT
GND
SHDN
1
PWM
SIGNAL
4
SW
GND
4
VSP
2
ENABLE
8
M
+
SP
BS
FAULT
5
2
7
FLT
MP8040
6
SHDN
3
PWM
VSP
DRV
5
MP8040
6
PWM
7
+
2
2
7
SW
+
SP
DRV
BS
3
1
FAULT
PWM
8
FLT
GND
4
ENABLE
MP8040_F05
5
MP8040
6
SHDN
SW
3
1
PWM
GND
4
MP8040_F06
Figure 5—80W Full Bridge Audio Amplifier
MP8040 Rev. 1.5
5/3/2005
Figure 6—Full Bridge Motor Driver
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© 2005 MPS. All Rights Reserved.
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TM
MP8040 – HIGH CURRENT INTEGRATED HALF BRIDGE + DRIVER
VSP
+
2
7
SP
DRV
BS
8
I/O
FAULT
I2C
MICRO
CONTROLLER
I/O
FLT
5
MP8040
6
SHDN
ON/OFF
SW
3
1
PWM
ADC1
ADC2
ADC3
PWM
GND
4
MP8040_F07
Figure 7—CCFL Driver Circuit
MP8040 Rev. 1.5
5/3/2005
www.MonolithicPower.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited.
© 2005 MPS. All Rights Reserved.
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TM
MP8040 – HIGH CURRENT INTEGRATED HALF BRIDGE + DRIVER
PACKAGE INFORMATION
SOIC8N (EXPOSED PAD)
NOTICE: The information in this document is subject to change without notice. Please contact MPS for current specifications.
Users should warrant and guarantee that third party Intellectual Property rights are not infringed upon when integrating MPS
products into any application. MPS will not assume any legal responsibility for any said applications.
MP8040 Rev. 1.5
5/3/2005
www.MonolithicPower.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited.
© 2005 MPS. All Rights Reserved.
8