M7085G-SM1-R [UTC]
PFM STEP-DOWN DC-DC CONTROLLER; PFM降压型DC -DC控制器型号: | M7085G-SM1-R |
厂家: | Unisonic Technologies |
描述: | PFM STEP-DOWN DC-DC CONTROLLER |
文件: | 总7页 (文件大小:226K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
UNISONIC TECHNOLOGIES CO., LTD
M7085
CMOS IC
PFM STEP-DOWN DC-DC
CONTROLLER
DESCRIPTION
The UTC M7085 step-down DC-DC Controller is optimized for
use with a power PMOSFET. It utilize a Pulse-Frequency
Modulation (PFM) control scheme that implies high efficiency
operation at light loads.
There are two user-selectable over-current protection methods
one provides over-current protection by taking advantage of the
RDS(ON) of the P- Channel. The other provides accurate over-current
protection with the use of an external sense resistor. The
cycle-by-cycle current limit threshold can be adjusted with a
external resistor.
FEATURES
* High efficiency 90% and up is possible
* Low dropout operation:100% duty cycle
* Maximum operating frequency > 1MHz
* Two methods of over-current protection
* 4.5V ~ 35V wide input range
* 1.24V ~ VIN adjustable output range
ORDERING INFORMATION
Ordering Number
Package
Packing
Lead Free
Halogen Free
M7085L-SM1-R
M7085L-SM1-T
M7085G-SM1-R
M7085G-SM1-T
MSOP-8
MSOP-8
Tape Reel
Tube
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Copyright © 2012 Unisonic Technologies Co., Ltd
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M7085
CMOS IC
PIN CONFIGURATION
ISENSE
VIN
1
2
3
4
8
PGATE
PGND
ADJ
SGND
NC
7
6
5
FB
PIN DESCRIPTION
PIN NO
PIN NAME
ISENSE
DESCRIPTION
The over-current protection input pin that be connected to Drain node of the external
1
P-Channel.
2
3
4
5
6
7
8
SGND
NC
Signal Ground.
No Connection.
FB
The feedback voltage input.
ADJ
PGND
GATE
VIN
The over-current protection input pin that adjust current limit threshold.
Power Ground.
Driver pin to Gate of the external P-Channel. PGATE swings between VIN and VIN-5V.
Power Supply
BLOCK DIAGRAM
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M7085
CMOS IC
ABSOLUTE MAXIMUM RATING
PARAMETER
SYMBOL
VIN
RATINGS
-0.3 ~ 36
-0.3 ~ 36
-0.3 ~ 5
-1.0 ~ 36
-0.3 ~ 36
400
UNIT
V
Input Voltage
PGATE Voltage
FB Voltage
VPGATE
VFB
V
V
ISENSE Voltage
ADJ Voltage
VISNS
VADJ
PD
V
V
Power Dissipation (TA =25℃)
Junction Temperature
mW
℃
℃
TJ
150
Storage Temperature
TSTG
-65 ~ +150
Note: Absolute maximum ratings are those values beyond which the device could be permanently damaged.
Absolute maximum ratings are stress ratings only and functional device operation is not implied.
OPERATING RATINGS
PARAMETER
SYMBOL
TOPR
RATINGS
4.5 ~ 35
UNIT
V
Supply Voltage
Operating Junction Temperature
-40 ~ +125
℃
ELECTRICAL CHARACTERISTICS
VIN = 12V, VISNS = VIN − 1V, and VADJ = VIN − 1.1V, Ta=25℃
PARAMETER
SYMBOL
TEST CONDITIONS
MIN
TYP MAX UNIT
1.224 1.240 1.256
Feedback Voltage (Note 1)
VFB
V
V
1.215
1.265
VIN = 4.5V VFB = 1.0V
IGATE = 100μA sink
Minimum Driver Voltage
Comparator Hysteresis
VPGATE(MIN)
1.15
10
15
110
880
0
16
21
VHYS
mV
mV
RADJ = 20Ω
RADJ = 160Ω
VFB = 1.5V
VFB = 1.5V
Current Limit Comparator Trip Voltage VCL (Note2)
Current Limit Comparator Offset
Current Limit ADJ Current Source
FB pin Bias Current (Note 3)
VCL(OFF)
ICL(ADJ)
IFB
-20
3.0
+20
7.0
mV
µA
nA
5
VFB = 1.0V
320
0.4
0.3
5
756
Source
Sink
Source
Sink
VIN = 7V, PGATE = 3.5V
VIN = 7V, PGATE = 3.5V
ISOURCE = 100mA
ISINK = 100mA
Driver Output Current
Driver Resistance
IPGATE
RPGATE
TCL
A
Ω
8
V
ADJ = 11.5V, VISNS = 11.0V,
VFB = 1.0V
ISNS = VADJ+0.1V, CLOAD on
OUT = 1000pF, (Note 4)
ISNS = VADJ+0.1V, VFB = 1.0V
LOAD on OUT=1000pF (Note 4)
%VFB/△VIN 4.5 ≤ VIN ≤ 35V
IQ FB = 1.5V (Not Switching)
Current Limit One Shot off Time
5
8
13
µS
ns
ns
V
Minimum on Time in Normal Operation TOPR(MIN)
110
185
V
C
Minimum on Time in Current Limit
TCL(MIN)
Feedback Voltage Line Regulation
Quiescent Current at Ground Pin
0.010
300
%/V
µA
500
Note: 1. The VFB is the trip voltage at the FB pin when PGATE switches from high to low.
2. VCL = ICL_ADJ * RADJ
3. Bias current flows out from the FB pin.
4. A 1000pF capacitor is connected between VIN and PGATE
.
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M7085
CMOS IC
TYPICAL APPLICATION CIRCUIT
VIN
4.5V ~ 35V
UTC M7085
Q1
CIN
22µF
7
PGATE
RADJ
CADJ
L1
22µH
VOUT
3.3V
5
6
1
4
ADJ
VIN
ISENSE
FB
D1
R1
33KΩ
2.6
COUT
100uF
R2
20KΩ
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M7085
CMOS IC
APPLICATION INFORMATION
Setting the output voltage
Select an output voltage between 1.24V and VIN by connecting FB to a resistive voltage-divider between VOUT
and GND (see the Typical Operating Circuit). Choose R2 for a reasonable bias current in the resistive divider. A wide
range of resistor values is acceptable.
R1, R2 is given by:
VOUT = 1.240* (R1 + R2) / R2
Setting over current protection threshold by the RDS(ON) of the P-Channel
The UTC M7085 has a cycle-by-cycle current limit. Current limit is sensed across the VDS of the P-Channel or
across an additional sense resistor. When current limit is activated, the UTC M7085 turns off the external P-Channel
for a period of 9μs(typical). The current limit is adjusted by an external resistor, RADJ
.
The current limit circuit is composed of the ISENSE comparator and the one-shot pulse generator. The positive input
of the ISENSE comparator is the ADJ pin. An internal 5.5µA current sink creates a voltage across the external RADJ
resistor. This voltage is compared to the voltage across the P-Channel or sense resistor. The ADJ voltage can be
calculated as follows:
VADJ = VIN - (RADJ * 3.0μA)
Where 3.0μA is the minimum ICL(ADJ) value.
The negative input of the ISENSE comparator is the ISENSE pin that should be connected to the drain of the external
P-Channel. The inductor current is determined by sensing the VDS. It can be calculated as follows.
VISENSE = VIN - (RDS(ON) * IIND_PEAK) = VIN - VDS
CADJ
5.5µA
ADJ
5
RADJ
VIN
1
ISENSE
COMP
VDS
ISENSE
Fig. 1 Current Sensing by VDS
The current limit is activated when the voltage at the ADJ pin exceeds the voltage at the ISENSE pin. The ISENSE
comparator triggers the 9μs one shot pulse generator forcing the driver to turn the P-Channel off. The driver turns
the P-Channel back on after 9μs. If the current has not reduced below the set threshold, the cycle will repeat
continuously.
A filter capacitor, CADJ, should be placed as shown in Fig. 1 CADJ filters unwanted noise so that the ISENSE
comparator will not be accidentally triggered. A value of 100pF to 1nF is recommended in most applications. Higher
values can be used to create a soft-start function. The current limit comparator has approximately 100ns of blanking
time. This ensures that the P-Channel is fully on when the current is sensed. However, under extreme conditions
such as cold temperature, some P-Channels may not fully turn on within the blanking time. In this case, the current
limit threshold must be increased. If the current limit function is used, the on time must be greater than 100ns. Under
low duty cycle operation, the maximum operating frequency will be limited by this minimum on time.
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M7085
CMOS IC
APPLICATION INFORMATION(Cont.)
Setting over current protection threshold by external sense resistor
The VDS of a P-Channel will tend to vary significantly over temperature. This will result an equivalent variation in
current limit. To improve current limit accuracy an external sense resistor can be connected from VIN to the source of
the P-Channel, as shown in Fig. 2.
Setting start up time
The current limit circuit is active during start-up. During start-up the P-Channel will stay on until either the current
limit or the feedback comparator is tripped If the current limit comparator is tripped first then the fold back
characteristic should be taken into account. Start-up into full load may require a higher current limit set point or the
load must be applied after start-up.
One problem with selecting a higher current limit is inrush current during start-up. Increasing the capacitance(CADJ
)
in parallel with RADJ results in soft-start. CADJ and RADJ create an RC time constant forcing current limit to activate at
a lower current. The output voltage will ramp more slowly when using the soft-start functionality. There are example
start-up plots for CADJ equal to 1nF and 10nF in the Typical Performance Characteristics. Lower values for CADJ will
have little to no effect on soft-start.
Inductor selection (L1)
UTC M7085 operates over a wide frequency range and can use a wide range of inductance values. The
inductance value and the resulting ripple is one of the key parameters controlling operating frequency. The second is
the ESR.
Output capacitor selection (COUT
)
The output capacitor, COUT, is required to keep the output voltage ripple small and to ensure regulation loop
stability. COUT must have low impedance at the switching frequency. For most applications, a 200mF capacitor is
sufficient.
Input capacitor selection (CIN)
The input capacitor, CIN, reduces the current peaks drawn and reduces switching noise in the IC. a bypass
capacitor is required between the input source and ground. It must be located near the source pin of the external
P-Channel. The input capacitor prevents large voltage transients at the input and provides the instantaneous current
when the P-Channel turns on. The capacitance value should be selected such that the ripple voltage created by the
charge and discharge of the capacitance is less than 10% of the total ripple across the capacitor.
Catch diode selection (D1)
The important parameters for the catch diode are the peak current, the peak reverse voltage, and the average
power dissipation. For high temperature applications, diode leakage current may become significant and require a
higher reverse voltage rating to achieve acceptable performance.
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M7085
CMOS IC
APPLICATION INFORMATION(Cont.)
P-Channel MOSFET Selection(Q1)
An external P-Channel power MOSFET must be used the UTC M7085 key selection criteria for the power for the
P-Channel are the maximum Drain-Source voltage (VDS) MOSFET are the gate threshold, VGS, the “ON” resistance,
RDS(ON) and its total gate charge.
The voltage across the PFET when it is turned off is equal to the sum of the input voltage and the diode forward
voltage. The VDS must be selected to provide some margin beyond the input voltage.
DS(ON)determines the conduction losses for each switching cycle, the lower the ON resistance, the higher the
R
efficiency can be chivied.
A power MOSFET with lower gate charge can give lower switching losses but the fast transient can cause
unwanted EMI to the system. Compromise in between is required during the design stage. Keeping the gate
capacitance below 2000pF is recommended.
UTC assumes no responsibility for equipment failures that result from using products at values that
exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or
other parameters) listed in products specifications of any and all UTC products described or contained
herein. UTC products are not designed for use in life support appliances, devices or systems where
malfunction of these products can be reasonably expected to result in personal injury. Reproduction in
whole or in part is prohibited without the prior written consent of the copyright owner. The information
presented in this document does not form part of any quotation or contract, is believed to be accurate
and reliable and may be changed without notice.
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