MIP6S1AMTSCF [PANASONIC]
Switching Regulator;型号: | MIP6S1AMTSCF |
厂家: | PANASONIC |
描述: | Switching Regulator 开关 |
文件: | 总9页 (文件大小:515K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Doc No. TD4-EA-01960
Revision. 2
MIP6S1AMTSCF
Type
Silicon MOSFET type Integrated Circuit
Application
Structure
Equivalent Circuit
Package
For Switching Power Supply Control
Bi-CMOS type
Figure 7
DIP7-A1-B
Marking
MIP6S1A
A.ABSOLUTE MAXIMUM RATINGS
No.
1
Item
Symbol
Ratings
Unit
Note
Drain Voltage
Tc = 25℃
DRAIN
-0.3 ~ 700
4
V
A
2
3
4
5
6
7
8
9
Drain Peak Current
VCC Voltage
Tc = 25℃
Tc = 25℃
Tc = 25℃
Tc = 25℃
Tc = 25℃
Tc = 25℃
IDP
VCC
VDD
VLS
VIS
-0.3 ~ 45
-0.3 ~ 10
-0.3 ~ 10
-0.3 ~ 5
-0.3 ~ 8
150
V
VDD Voltage
V
LS Voltage
V
IS Voltage
V
FB Voltage
VFB
Tj
V
Junction Temperature
Storage Temperature
Control IC&
Power MOSFET
℃
℃
Tstg
-55 ~ +150
B.RECOMMENDED OPERATING CONDITIONS
No.
1
Item
Symbol
Conditions
Unit
Note
Junction Temperature
(Control IC)
Tjcon
Tjmos
VCC
-40 ~ +100
-40 ~ +150
13 ~ 28
℃
℃
V
2
3
Junction Temperature
(Power MOSFET)
VCC operation voltage range
at Heavy Load
Page 1 of 8
Established : 2015-04-07
Revised : 2015-10-20
Doc No. TD4-EA-01960
Revision. 2
MIP6S1AMTSCF
C.ELECTRICAL CHARACTERISTICS
Measurement conditions (Ta=25℃±3℃)
Symbol Measurement Conditions
【CONTROL FUNCTIONS】 *Design Guarantee Item, **Reference Item
NO.
Item
Typ.
Min.
Max.
Unit
1
2
3
VCC Start Voltage
VCC(ON)
VCC(OFF)
17.0
9.8
V
V
V
18.5
10.8
20.0
11.8
VCC Stop Voltage
VCC Start/Stop Hysteresis
VCC(ON) - VCC(OFF)
VCC = 21 V
D_VCC
7.7
6.9
8.8
4
5
VDD Reference Voltage
VDD
5.9
0.58
0.51
1.90
0.85
100
5.1
5.6
0.48
0.45
-
6.2
0.68
0.56
-
V
mA
mA
mA
mA
kHz
kHz
Hz
%
Circuit Current before start
Operating Circuit Current at light load
Operating Circuit Current
VCC = VCC(ON) - 0.8 V,
FB : open
ICC(SB)
ICC(STB)
ICC(OP)
ICC(OL)
fosc
6
VCC = 15 V,
IFB = IFB1 ‒ 10 μA
**7
8
VCC = 21 V, IFB = -20μA,
DRAIN = 5 V
Operating Circuit Current
at Over Load Protection
Output Frequency
VCC = 15 V
VFB = VFB(OL) → open
0.70
93
1.00
107
7.2
-
9
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
10
**11
12
13
**14
15
16
17
Jitter Frequency Deviation
Jitter Frequency Modulation Rate
Maximum Duty Cycle
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
d_fosc
3.0
-
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
fM
350
66
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
MAXDC
IFB1
60
72
Feedback Threshold Current
Feedback Current Hysteresis
FB Pin Voltage
ON → OFF,
VCC = 21 V
-104
-
μA
μA
V
-80
1
-56
-
OFF → ON,
VCC = 21 V
IFBHYS
VFB1
VCC = 21 V, IFB = IFB1
VCC = 21 V, VFB = 0 V
VCC = 40 V, VFB = VFB1
1.6
1.4
-410
250
1.8
-250
550
FB Pin Grounded Current
IFB0
μA
Ω
-330
400
FB Pin Pull-down resistance
at Output Stop
RFB(OFF)
Page 2 of 8
Established : 2015-04-07
Revised : 2015-10-20
Doc No. TD4-EA-01960
Revision. 2
MIP6S1AMTSCF
No.
18
Item
Symbol
Measure Conditions
Typ.
Min.
Max.
Unit
VCC Pin Charging Current
VCC = 0 V, FB : open,
DRAIN = 50 V
ICCH1
-15.4
-5.0
3.5
mA
mA
ms
-11.0
-3.0
6.0
-6.6
-2.0
8.5
VCC = VCC(ON) - 0.5 V, FB : open,
DRAIN = 50 V
ICCH2
*19
Soft Start Time
DRAIN = 50 V
Tsoft
【CIRCUIT PROTECTIONS】 *Design Guarantee Item, **Reference Item
20
21
22
Current Limit Detection Maximum
Voltage
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
VLIMIT(MAX)
VLIMIT_L
800
710
-22.4
35
744
660
-27.6
31.5
110
-
mV
mV
856
760
-17.2
38.5
210
-
Current Limit Detection Maximum
Voltage at Input Compensation Mode
Slope Compensation Rate
VCC = 21 V, VFB = 3 V, VLS = 0.75 V,
DRAIN = 5 V
VCC = 21 V, VFB = 3 V
mV/μs
VLIM_SLP
D_SLP
*23 Start Duty Cycle of
Slope Compensation
VCC = 21 V, VFB = 3 V
%
mV
mV
mV
mV
mV
V
*24 Current Detection Minimum Voltage
at light load
VCC = 21 V, IFB = IFB1,
DRAIN = 5 V
VIS(OFF)min
D_VIS(OFF)
160
40
**25
Jitter Deviation of Current Detection
Voltage at light load
VCC = 21 V, IFB = IFB1,
DRAIN = 5 V
26 LS Pin Voltage of
Input Compensation Detect
27 LS Pin Voltage of
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
VLS(CL)
520
470
60
468
423
45
572
517
75
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
Input Compensation Release
LS Pin Hysteresis Voltage of
Input Compensation
VLS(CL)L
VLS(CL)HYS
28
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
29 LS Pin Voltage of
Over Input Protection Detect
30 LS Pin Voltage of
Over Input Protection Return
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
VLS(OV)
1.050 0.945 1.155
1.000 0.900 1.100
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
VLS(OV)L
VLS(OV)HYS
V
31 LS Pin Hysteresis Voltage of
Over Input Protection
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
0.06 0.045
4
V
0.075
32 VCC timer Count
VCC = VCC(ON) ⇔VCC(OFF)
at Over Load Protection
OLP_CNT
Ton(BLK)
Td(OCL)
VFB(OL)
IFB(OL)
-
**33 Leading Edge Blanking Delay
440
150
4.4
-
-
-
-
ns
ns
V
**34
35
Current Limit Delay
FB Over Load Protection detect
Voltage
VCC = 22 V,
DRAIN = 5 V
4.1
-13
4.7
-7
36 FB Current at heavy load
VCC = 22 V, VFB = 3 V,
DRAIN = 5 V
-10
μA
Page 3 of 8
Established : 2015-04-07
Revised
: 2015-10-20
Doc No. TD4-EA-01960
Revision. 2
MIP6S1AMTSCF
No.
Item
Symbol
Measure Conditions
Typ.
Min.
Max.
Unit
37 VCC Over Voltage Protection
VFB = 3 V,
DRAIN = 5 V
VCC(OV)
VDD(OV)
IDD(OV)
IDD(CLP)
Td(OL)
31.5
7.5
28.5
7.0
0.7
13.2
-
34.5
8.1
1.7
19.8
-
V
V
38
39
40
VDD Over Voltage Protection
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
VDD current at VDD Over Voltage
Protection
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
1.2
mA
mA
μs
μs
V
VDD Clamp Current
VDD = 10 V
VCC = 21 V
VCC = 21 V
16.5
20
**41 Over Load Protection Filter Time
**42
43
Over Voltage Protection
Latch Stop Filter Time
Td(LAT)
VDDreset
TOTP
150
2.7
-
-
Latch Reset VDD Threshold Voltage
1.7
130.
-
3.7
150
-
*44 Thermal Shutdown Temperature
(Control IC)
140
70
℃
℃
**45
Thermal Shutdown Temperature
Hysteresis (Control IC)
TOTPHYS
【Power MOSFET】 *Design Guarantee Item, **Reference Item
46
47
48
Minimum Drain Supply Voltage
Breakdown Voltage
OFF-State leakage Current
ON-State Resistance
Rise Time
VD(MIN)
VDSS
IDSS
RDS(ON)
tr
25.0
-
20.0
700
-
V
V
29.0
-
VCC = 40 V,
IDRAIN = 250 μA,
VCC = 40 V
DRAIN = 650 V
μA
Ω
ns
ns
2
7
VCC = 21 V, VFB = 3 V,
IDRAIN = 1 A,
49
-
2.5
150
80
2.7
-
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
**50
**51
-
Fall Time
VCC = 21 V, VFB = 3 V,
DRAIN = 5 V
tf
-
-
Page 4 of 8
Established : 2015-04-07
Revised : 2015-10-20
Doc No. TD4-EA-01960
Revision. 2
MIP6S1AMTSCF
【Figure 1: Measurement circuit/Pin Layout】
L
5
4
3
7
2
1
Rd
8
6.8 kΩ
VCC
/ICC
VLS
/ILS
VFB
/IFB
VIS
/IIS
VDRAIN
/IDRAIN
Rs
VDD
/IIDD
1μF
3μF
1μF
0.1μF
0.1μF
Pin No.
Pin Name
FB
Function
1
2
3
4
5
6
7
8
Feedback control
1
8
7
GND
LS
Ground
Input Compensation /
2
Over Input Voltage Protection
IS
MOSFET Source / Current Detection
3
4
MOSFET Drain /
DRAIN
Power supply for start-up
5
Power supply from bias winding /
Over Voltage Protection
Reference Voltage for circuits /
External latch Protection
VCC
VDD
【Figure 2: fosc, d_fosc, fM measurement】
d_fosc
fosc (average)
1/fM
time
Page 5 of 8
Established : 2015-04-07
Revised
: 2015-10-20
Doc No. TD4-EA-01960
Revision. 2
MIP6S1AMTSCF
【Figure 3: VLS-VLIMIT Characteristics】
VLIMIT
VLIMIT(MAX)
VLIMIT_L
VLS(CL)HYS
VLS(OV)HYS
VLS
0
VLS(CL)
VLS(OV)
(Oscillation stop)
【Figure 4: IFB-VLIMIT Characteristics】
Current Limit
Detection threshold
Voltage of IS
VLIMIT(MAX)
IFBHYS
VIS(OFF)min
Oscillation stop
Oscillation restart
| IFB |
| IFB(OL) |
| IFB1 |
Page 6 of 8
Established : 2015-04-07
Revised : 2015-10-20
Doc No. TD4-EA-01960
Revision. 2
MIP6S1AMTSCF
【Figure 5: Over Load Protection Characteristics】
Tsoft
Tsoft
Tsoft
Tsoft
VCC(ON)
VCC terminal
Voltage
t(OLP)
VCC(OFF)
Td(OL)
ILIMIT
Max Output
ILIMIT
Power
Drain Current of
Power MOSFET
Oscillation Stop and
Timer Intermittent Oscillation Start
FB terminal
Voltage
VFB(OL)
VDD
Max Output
Power
Output Power
Over Load Detection
Oscillation stop
Oscillation restart
【Figure 6: tr, tf measurement】
tf
tr
DRAIN voltage
90%
10%
time
Page 7 of 8
Established : 2015-04-07
Revised
: 2015-10-20
Doc No. TD4-EA-01960
Revision. 2
MIP6S1AMTSCF
【Figure 7: Block Diagram】
DRAIN
VCC
+
-
Timer Intermittent
VCC(ON)/
VCC(OFF)
+
-
VDD
-
+
VCC(OV)
Q
Q
S
R
VDD
FB
Restart Trigger
Over Temp. Detection
Under Voltage Lock Out
MAXDUTY
CLOCK
Regulator
External
Latch
+
-
Vdrv = 12.5V
Oscillator
with Jitter
VFB(OL)
-
+
I-V
Converter
Light load Detection
+
Power
MOSFET
Clamping
Circuit
-
VIS(OFF)
Q
Q
S
Over Input
voltage Detection
R
Lower Limit
with Jitter
-
+
Slope
Compensation
VLIMIT
Change
LS
IS
Leading Edge
Blanking
VLIMIT(MAX)
VLIMIT_L
GND
RC filter
【Precautions for Use 1】
Connect a ceramic capacitor with value ≧ 0.1 μF between VDD pin and GND
【Precautions for Use 2】
The product has risks for break-down or burst or giving off smoke in following conditions. Avoid the following use.
Fuse should be added at the input side or connect Zener diode between control pin and GND, etc. as a countermeasure
to pass regulatory Safety Standard. Concrete countermeasure could be provided individually. However, customer should
make the final judgment.
(1) Reverse the Drain pin and FB pin connection to the power supply board.
(2) Connect to pins in which different Maximum ratings.
Page 8 of 8
Established : 2015-04-07
Revised : 2015-10-20
Request for your special attention and precautions in using the technical information and
semiconductors described in this book
(1) If any of the products or technical information described in this book is to be exported or provided to non-residents, the laws and
regulations of the exporting country, especially, those with regard to security export control, must be observed.
(2) The technical information described in this book is intended only to show the main characteristics and application circuit examples
of the products. No license is granted in and to any intellectual property right or other right owned by Panasonic Corporation or any
other company. Therefore, no responsibility is assumed by our company as to the infringement upon any such right owned by any
other company which may arise as a result of the use of technical information described in this book.
(3) The products described in this book are intended to be used for general applications (such as office equipment, communications
equipment, measuring instruments and household appliances), or for specific applications as expressly stated in this book.
Consult our sales staff in advance for information on the following applications:
Special applications (such as for airplanes, aerospace, automotive equipment, traffic signaling equipment, combustion equipment,
life support systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of
the products may directly jeopardize life or harm the human body.
It is to be understood that our company shall not be held responsible for any damage incurred as a result of or in connection with
your using the products described in this book for any special application, unless our company agrees to your using the products in
this book for any special application.
(4) The products and product specifications described in this book are subject to change without notice for modification and/or improve-
ment. At the final stage of your design, purchasing, or use of the products, therefore, ask for the most up-to-date Product Standards in
advance to make sure that the latest specifications satisfy your requirements.
(5) When designing your equipment, comply with the range of absolute maximum rating and the guaranteed operating conditions
(operating power supply voltage and operating environment etc.). Especially, please be careful not to exceed the range of absolute
maximum rating on the transient state, such as power-on, power-off and mode-switching. Otherwise, we will not be liable for any
defect which may arise later in your equipment.
Even when the products are used within the guaranteed values, take into the consideration of incidence of break down and failure
mode, possible to occur to semiconductor products. Measures on the systems such as redundant design, arresting the spread of fire
or preventing glitch are recommended in order to prevent physical injury, fire, social damages, for example, by using the products.
(6) Comply with the instructions for use in order to prevent breakdown and characteristics change due to external factors (ESD, EOS,
thermal stress and mechanical stress) at the time of handling, mounting or at customer's process. When using products for which
damp-proof packing is required, satisfy the conditions, such as shelf life and the elapsed time since first opening the packages.
(7) This book may be not reprinted or reproduced whether wholly or partially, without the prior written permission of our company.
Precautions on the Sales of IPDs
1) The sale and/or the export of IPD products to customers located in certain countries is restricted by the Agreement made and
executed by and between Power Integrations, Inc. and Panasonic Corporation. For details, refer to the following Attached table
"IPD availability by customer."
2) IPD products purchased from our company, or its authorized agents, hereinafter referred to as our company, shall be used only
for production purposes by those parties who have duly purchased IPD products. Those who have purchased IPD products shall
not use such IPD products in unmodified form for re-sale, loan, or sample shipment for evaluation purposes to any other
parties.
3) If a party who has duly purchased IPD products subcontracts its production to any other parties, including its subsidiaries or any other
third parties inside and/or out of Japan, and the IPD products are consigned to such subcontracting parties thereat, such party is
obligated to monitor and control the quantity of IPD products to prevent any of the aforementioned re-sale, loan or sample shipments
from taking place.
4) In the event that any actual or threatened breach or violation of any of the above mentioned 2) or 3) has occurred or is about to occur,
our company will hold all shipments of IPD products and may request the customer to disclose necessary documentation describing
the status of our end-users and/or distribution channels.
Note) The products of MIP50**, MIP51**, MIP70** and MIP71** are excluded from above-mentioned precautions, 1) to 3).
Attached table "IPD availability by customer"
Parts No.
Companies/areas to which Companies/areas to which
Application
products can be sold
products cannot be sold
•
Companies in European
and American countries
Asian companies in Asia
Other local companies
MIP01**
MIP2**
MIP9A**
MIP02**
MIP3**
MIP9L**
MIP1**
MIP4**
•
•
Japanese companies in Japan
Japanese companies in Asia
(50% or more owned)
•
•
For power supply
For DC-DC converter
•
•
•
•
Companies in European
and American countries
Other local companies
MIP00**
MIP55**
MIP6S**
MIP816/826
MIP52**
MIP56**
MIP7S**
MIP9E**
MIP53**
MIP5S**
MIP803/804
•
•
Japanese companies in Japan
Japanese companies in Asia
(50% or more owned)
•
•
•
For power supply
For EL driver
For LED lighting driver
•
•
Asian companies in Asia
•
•
For lamp driver/
car electronics accessories
MIP50**
MIP71**
MIP51**
MIP70**
No restrictions in terms of
contract
•
No restrictions in terms of
contract
Note) For details, contact our sales division.
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