Ultra Low Power DualVoltage Detector - AKM · 5/17/2018 · VIN1,VIN2, VDD1,VDD2-0.3 6.5 V...
16
[AP4410BEC] 018005530-J-00 2018/5 - 1 - 1. AP4410BEC MOSFET CMOS IC 2 0.026 A CMOS P-ch MOSFET N-ch MOSFET ON/OFF CMOS IC MOSFET 2. 2 P-ch MOSFET, N-ch MOSFET ch (VDETH,VDETL) High 1.8 to 4.4V ( ) Low 1.7 to 4.3V ( ) ±35mV 0.026 A typical/ch. 0.050 A maximum/ch. 500 s maximum ON P-ch MOSFET 1 typical N-ch MOSFET 2 typical -40 - +85 °C 20-pin WLCSP (1.955 1.555mm, 0.4mm pitch) Ultra Low Power Dual Voltage Detector AP4410BEC
Transcript of Ultra Low Power DualVoltage Detector - AKM · 5/17/2018 · VIN1,VIN2, VDD1,VDD2-0.3 6.5 V...
[AP4410BEC]
018005530-J-00 2018/5 - 1 -
1.
AP4410BEC MOSFETCMOS IC 2 0.026 A
CMOSP-ch MOSFET N-ch MOSFET
ON/OFF CMOSIC MOSFET
2.
2
P-ch MOSFET, N-ch MOSFET ch
(VDETH,VDETL)
High 1.8 to 4.4V ( )
Low 1.7 to 4.3V ( )
±35mV
0.026 A typical/ch. 0.050 A maximum/ch.
500 s maximum
ON P-ch MOSFET 1 typical
N-ch MOSFET 2 typical
-40 - +85 °C
20-pin WLCSP (1.955 1.555mm, 0.4mm pitch)
Ultra Low Power Dual Voltage DetectorAP4410BEC
[AP4410BEC]
018005530-J-00 2018/5 - 2 -
3.
1. .................................................................................................................................................. 1 2. .................................................................................................................................................. 1 3. .................................................................................................................................................. 2 4. .......................................................................................................................................... 3 5. ........................................................................................................................ 4
......................................................................................................................................... 4 ............................................................................................................................................. 4
6. ....................................................................................................................................... 5 7. ....................................................................................................................................... 5 8. .......................................................................................................................................... 6 9. ....................................................................................................................................... 7
.............................................................................................................................. 7 10. .......................................................................................................................................... 9
Detection voltage ..................................................... 9 ..................................................... 10 Current consumption IVIN vs. VIN .............................................................................................. 11 Current consumption vs. Ta .......................................................................................................... 12 Response time (tPLH, tPHL) ......................................................................................................... 13
11. ........................................................................................................................................ 14 .................................................................................................................................... 14 ..................................................................................................................................... 14
12. ............................................................................................................................................ 15 ........................................................................................................................................ 16
[AP4410BEC]
018005530-J-00 2018/5 - 3 -
4.
Figure 1. Block Diagram
Channel 2
Channel 1
[AP4410BEC]
018005530-J-00 2018/5 - 4 -
5.
20-pin WLCSP
WLCSP Pin Pin Name I/O FunctionA1 PMOS1D Input/Output PMOS1 (Channel 1)A2 VDD1 Power (Channel 1)A3 OUT1 Output (Channel 1)A4 VIN1 Power (Channel 1)B1 NMOS1D Output NMOS1 (Channel 1)B2 POL1 Input (Channel 1)B3 TEST1 - TEST VSSB4 EN1 Input (Channel 1)C1 VSS GroundC2 TEST2 - TEST VSSC3 TEST3 - TEST VSSC4 TEST4 - TEST VSSD1 NMOS2D Output NMOS2 (Channel 2)D2 POL2 Input (Channel 2)D3 TEST5 - TEST VSSD4 EN2 Input (Channel 2)E1 PMOS2D Input / Output PMOS2 (Channel 2)E2 VDD2 Power (Channel 2)E3 OUT2 Output (Channel 2)E4 VIN2 Power (Channel 2)
[AP4410BEC]
018005530-J-00 2018/5 - 5 -
6.
Parameter Symbol min max Unit
(Note 1)
VIN1,VIN2,VDD1,VDD2 -0.3 6.5 V
OUT1,EN1,POL1 VSS-0.3 VDD1 + 0.3 VOUT2,EN2,POL2 VSS-0.3 VDD2 + 0.3 V
PMOS1DPMOS2D -0.3 6.5 V
NMOS1DNMOS2D -0.3 6.5 V
Pd - 0.8 WTstg -55 150 C
Note 1. VSS 0V
:
7.
Parameter Symbol min max Unit
Ta -40 85 CVIN1VIN2VDD1VDD2
1.2 5.5 V
[AP4410BEC]
018005530-J-00 2018/5 - 6 -
8.
(Ta= -40 - +85 C, VIN1, VIN2, VDD1 and VDD2 =1.2V to 5.5V, OUT=open, PMOSD=open, NMOSD=open, unless otherwise specified.)
Parameter Symbol min typ max Unit Condition
VDETH
VDETH-0.035
VDETH
VDETH+0.035 V
Ta=25 CL H
(Note 6)
VDETH-0.045
VDETH+0.045 V
Ta=85 CL H
(Note 6)
VDETL
VDETL-0.035
VDETL
VDETL+0.035 V
Ta=25 C
(Note 6)
VDETL-0.045
VDETL+0.045 V
Ta=85 C
(Note 6)
IVIN - 0.026 0.050Consumption for VIN per channel
(Note 7)IVDD
(Note 2)(Note 3)
- 0.0001 0.100 Consumption for (VDD1 + VDD2)(Note 8)
igh VIH VDD0.8 - - V
Low VIL - - VDD0.2 V
EN (Push, Pull) | IEN | 0.15 -
IOH (Note 4) IOH 0.15 - - mA VIN=VDETH+0.1V,OUT=VDD-0.5V
IOL (Note 4) IOL 0.2 - - mA VIN=VDETL-0.1V,OUT=0.5V
(Note 5)tPLH
tPHL
-
-
0.2
0.2
0.5
0.5
ms
ms
VIN=VDETH- DETH+0.1VVIN= VDETL DETL-0.1V(Note 9)
P-ch MOSFET RonP - 1 2.3 VDD 1.7V
N-ch MOSFET RonN - 2 5 VDD 1.7V
Note 2.Note 3. VDD1 VDD2Note 4. VDD1 VDD2
IOL "L" N-IOH "H" P-
Note 5. OUT1 OUT2Note 6. 10 Detection voltage High (VDETH) and Low (VDETL) vs. Ta
Note 7. 10 Current consumption IVIN vs. VINNote 8. 10 IVDDx vs TaNote 9. 10 Response time (tPLH, tPHL)
[AP4410BEC]
018005530-J-00 2018/5 - 7 -
9.
VIN1 pin and VIN2 pin = ( ;VIN)VDD1 pin and VDD2 pin = ( ;VDD)POL1 pin and POL2 pin = ( ;POL)EN1 pin and EN2 pin = ( ;EN)
1)VIN1 VIN2( VIN ) VSS IC (1.2V)
A(Figure 2 ) VSS VIN(VDETH) A VIN
2)VIN VDETH A VIN VIN (VDETL)
A VSS VINA
POL1 POL2( POL ) EN1 EN2( EN ) VDD1VDD2 (1.2V) POL L EN HOUT Figure.3 AP4410BEC POL
P-ch MOSFET N-ch MOSFET ON/OFF ENTable. 1 2 EN
Hi-Z P-ch MOSFET BULK VDD PMOSD
Figure 2. ( )
VINVDETH/L
POL EN VDD
PMOSD
OUT
NMOSD
VSS
[AP4410BEC]
018005530-J-00 2018/5 - 8 -
Figure 3. AP4410BEC
Table 1. Control Logic Truth Table (Note 10) POL VIN EN A B C PMOSD NMOSD OUT Note
L VIN<VDETH L L H H OPEN L H -
L VIN<VDETH H L H L H OPEN L OUT= positive polarityL VIN VDETH H H L H OPEN L H
L VIN VDETH L H L H OPEN L H -
H VIN<VDETH L L L H OPEN L H -
H VIN<VDETH H L L H OPEN L H OUT= negative polarityH VIN VDETH H H H L H OPEN L
H VIN VDETH L H H H OPEN L H -
Note 10. VIN VDETL
Table 2. Control Logic Truth Table (Note 11)POL VIN EN A B C PMOSD NMOSD OUT Note
L VIN>VDETL L H L H OPEN L H -
L VIN>VDETL H H L H OPEN L H OUT= positive polarityL VIN VDETL H L H L H OPEN L
L VIN VDETL L L H H OPEN L H -
H VIN>VDETL L H H H OPEN L H -
H VIN>VDETL H H H L H OPEN L OUT= negative polarityH VIN VDETL H L L H OPEN L H
H VIN VDETL L L L H OPEN L H -
Note11. VIN VDETH
[AP4410BEC]
018005530-J-00 2018/5 - 9 -
10.
Detection voltage High (VDETH) and Low (VDETL) vs. VIN
Figure 4.
Figure 5. VDETH=4.4V, VDETL=4.3
[AP4410BEC]
018005530-J-00 2018/5 - 10 -
Detection voltage High (VDETH) and Low (VDETL) vs. Ta
Figure 6 (mV) vs. Ta normalized to 25 C
[AP4410BEC]
018005530-J-00 2018/5 - 11 -
Current consumption IVIN vs. VIN
Figure 7. VDETH=3.6V, VDETL=3.0
Figure 8. VDETH=2.7V, VDETL=2.5
[AP4410BEC]
018005530-J-00 2018/5 - 12 -
Current consumption vs. Ta
Figure 9. IVIN vs Ta (VIN=5.5V,
Figure 10. IVDDx vs Ta (VDD=5.5V,
Note 12. IVDDx VDD1 VDD2 1
[AP4410BEC]
018005530-J-00 2018/5 - 13 -
Response time (tPLH, tPHL)
Figure 11. VDET vs. tPLH & tPHL (25 C )
Figure 12. VDET vs Ta ( )
[AP4410BEC]
018005530-J-00 2018/5 - 14 -
11.
20-pin WLCSP (Unit: mm)
0 B X X
Y WW Z(4)
(2)
(5) (6)
(1)
(3)
(2) Symbol of the detection voltage of system 1
[AP4410BEC]
018005530-J-00 2018/5 - 15 -
12.
Date (YY/MM/DD) Revision Page Contents2018/05/17 00 -
[AP4410BEC]
018005530-J-00 2018/5 - 16 -
0. ( )
1.
2.
3.
4.
5.RoHS
6.
7.
