S8233A Seiko, S8233A Datasheet

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S8233A

Manufacturer Part Number
S8233A
Description
Manufacturer
Seiko
Datasheet

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Company
Part Number
Manufacturer
Quantity
Price
Part Number:
S8233AEFE
Manufacturer:
JST
Quantity:
1 191
Part Number:
S8233AF
Manufacturer:
SEIKO
Quantity:
1 831
Rev.3.2
BATTERY PROTECTION IC
FOR 3-SERIAL-CELL PACK
Features
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
Applications
Lithium-ion rechargeable battery packs
Packages
14-Pin SOP
16-Pin TSSOP
Package Name
Internal high-accuracy voltage detection circuit
High input-voltage device (absolute maximum rating: 26 V)
Wide operating voltage range:
The delay time for every detection can be set via an external capacitor.
Three over current detection levels (protection for short-circuiting)
Internal charge/discharge prohibition circuit via the control terminal
The function for charging batteries from 0 V is available.
Low current consumption
_10
Over charge detection voltage
Over charge release voltage
(The over charge release voltage can be selected within the range where a difference from over
charge detection voltage is 0 V to 0.3 V)
Over discharge detection voltage
Over discharge release voltage
(The over discharge release voltage can be selected within the range where a difference from over
discharge detection voltage is 0 V to 1.0 V)
Over current detection voltage 1
Operation
Power-down
50 µA max. (+25 °C)
0.1 µA max. (+25 °C)
The S-8233A Series is a series of lithium-ion rechargeable battery
protection ICs incorporating high-accuracy voltage detection circuits and
delay circuits. It is suitable for a 3-serial-cell lithium-ion battery pack.
Package
FE014-A
FT016-A
Seiko Instruments Inc.
Drawing Code
FE014-A
FT016-A
Tape
4.10 ± 0.05 V to 4.35 ± 0.05 V
50 mV- step
3.85 ± 0.10 V to 4.35 ± 0.10 V
50 mV- step
2.00 ± 0.08 V to 2.70± 0.08 V
100 mV- step
2.00 ± 0.10 V to 3.70± 0.10 V
100 mV - step
0.15 ±0.015 V to 0.5 ±0.05 V
50 mV-step
2 V to 24 V
S-8233A Series
FE014-A
FT016-A
Reel
1

Related parts for S8233A

S8233A Summary of contents

Page 1

... ICs incorporating high-accuracy voltage detection circuits and delay circuits suitable for a 3-serial-cell lithium-ion battery pack. 50 µA max. (+25 °C) 0.1 µA max. (+25 °C) Package FE014-A FT016-A Seiko Instruments Inc. S-8233A Series 4.10 ± 0. 4.35 ± 0. mV- step 3.85 ± 0. 4.35 ± 0. mV- step 2.00 ± 0. 2.70± 0.08 V 100 mV- step 2.00 ± ...

Page 2

... Over charge + − Battery 3 Over charge + − Battery 3 Over discharge Reference voltage 3 Battery 3 Over charge Figure 1 Seiko Instruments Inc. Rev.3.2 Over current Over current detection 2,3 delay circuit circuit Over current1, delay circuit Over discharge delay circuit Over charge delay circuit Floating ...

Page 3

... Product Name Structure 1. Product name S−8233A x *1. Refer to the taping specifications. BATTERY PROTECTION IC FOR 3-SERIAL-CELL PACK xx − direction in tape specifications Package name (abbreviation) Serial code Assigned from alphabetical order Seiko Instruments Inc. S-8233A Series *1 FE: 14-Pin SOP FT: 16-Pin TSSOP 3 ...

Page 4

... V 4.10±0.10 V 2.30±0.08 V 4.05±0.10 V 2.40±0.08 V 4.05±0.10 V 2.40±0.08 V 4.05±0.10 V 2.40±0.08 V 4.05±0.10 V 2.40±0.08 V 4.05±0.10 V 2.40±0.08 V 4.05±0.10 V 2.40±0.08 V 4.05±0.10 V 2.70±0.08 V 4.05±0.10 V 2.00±0.08 V Seiko Instruments Inc. Overdischarge Overcurrent release voltage detection voltage1 IOV1 2.30±0.10 V 0.20±0.02 V 2.30±0.10 V 0.20±0.02 V 2.70±0.10 V 0.15±0.015 V 2.70±0.10 V 0.50±0.05 V 2.70±0.10 V 0.40±.0.04 V 3.00± ...

Page 5

... Connects battery 1 negative voltage and battery 2 positive voltage CD1 14 Battery 1 conditioning signal output connection Positive power input and connects battery 1 positive voltage 16 VCC *1. The NC pin is electrically open. The NC pin can be connected to VCC or VSS. Seiko Instruments Inc. S-8233A Series Table 3 Pin description Table 4 Pin description * ...

Page 6

... CD1 CD1 V CD2 CD2 V CD3 CD3 V DOP DOP V COP COP P - D - T - opr T - stg Seiko Instruments Inc. Rev.3.2 ( °C unless otherwise specified) Absolute Maximum Ratings Unit −0 + −0 +0 −0 + −0 +0 − ...

Page 7

... I V1=V2=V3=3.5 V CELL2 I V1=V2=V3=3.5 V CELL3 I V1=V2=V3=1.5 V PDN R V1=V2=V3=3.5 V VCM *5 V1=V2=V3=3 V1=V2=V3=1.5 V VSM *5 V1=V2=V3=1.5 V − V CTL(H) − V CTL(L) Seiko Instruments Inc. S-8233A Series ( °C unless otherwise specified) Measure- Min. Typ. Max. Unit ment condition V −0. +0.05 V CU1 CU1 CU1 −0. +0.10 V CD1 ...

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... OUT I =0.1 µA V -0.5 OUT CC − I =10 µA OUT =0.1 µ -0.5 OUT CC − =10 µA I OUT *5 − − Seiko Instruments Inc. ( °C unless otherwise specified) Measure- Max. Unit ment condition − − − − − 100 ...

Page 9

... DU2 ). Decrease V3 gradually. The V3 voltage when CU3 ). Further decrease V3. The V3 voltage when DOP = 'H' CD3 ). Increase V3 gradually. The V3 voltage when DOP = 'L' is over DD3 ). DU3 ). IOV3 ). CELL3 ). PDN ). VCM ). VSM Seiko Instruments Inc. S-8233A Series ). IOV1 ), I2, the cell 2 current consumption OPE , ...

Page 10

... Set inhibit over discharge detection. Set V1, V2 4.0 V and increase V4 from 6.0 V immediately (within 1 µs) and decrease V1, V2, and time. The time after V4 becomes 6.0 V until DOP goes 'H' is the over current detection delay time C0( Seiko Instruments Inc. ). D0(L) +0.1 V under over current condition. IOV2 ). IOV3 Rev.3.2 _10 ) ...

Page 11

... OFF LEAK current (I ). COL (15) Measurement 15 Measurement circuit 10 Set V1, V2, and and and decrease V8 gradually. The V8 voltage when COP = ' 0 higher) is the 0V charge start voltage (V SS BATTERY PROTECTION IC FOR 3-SERIAL-CELL PACK ). 0CHAR Seiko Instruments Inc. S-8233A Series 11 ...

Page 12

... MΩ COP VMP CTL CCT CDT COVT S1 COP VMP CTL CCT CDT COVT V4 COP VMP CTL CCT CDT COVT Figure 4 (1/2) Seiko Instruments Inc. Rev.3 MΩ DOP COP VCC VMP V1 CD1 CTL VC1 CCT V2 S-8233A CD2 CDT VC2 V3 CD3 COVT VSS ...

Page 13

... CD3 VSS Measurement circuit 9 BATTERY PROTECTION IC FOR 3-SERIAL-CELL PACK VMP CTL CCT C1 S1 CDT C2 COVT C3 I1 COP VMP CTL CCT CDT COVT Figure 4 (2/2) Seiko Instruments Inc. S-8233A Series 1 MΩ DOP COP VCC CD1 VC1 S2 CD2 V2 S-8233A S5 I3 ...

Page 14

... VCM ), the charging FET turns on and the normal condition returns but the charger is removed, a load is placed, and discharging CD Seiko Instruments Inc. ), and the current flowing CU resistor. VCM ,V and V ...

Page 15

... VCM potential, charging and discharging are enabled and result of input voltage fluctuations higher is applied to between VMP and VSS by connecting 0CHAR potential. SS Seiko Instruments Inc. S-8233A Series ) during discharging longer, the DD ). This condition is called PDN resistor under the over ...

Page 16

... The Voltage temperature factors 1 and 2 are expressed by the oblique line parts in Figure 5. Ex. Voltage temperature factor of over charge detection voltage V CU [V] V CU25 −20 16 +0.1 mV/° the over charge detection voltage at 25°C CU25 −0.1 mV/° [°C] 70 Figure 5 Seiko Instruments Inc. Rev.3.2 _10 ...

Page 17

... Over discharge mode, Over current mode indicates the open voltage of the charger. CHA Figure 6 V1 battery V2 battery Delay Delay Over charge mode, Over discharge mode, Figure 7 Seiko Instruments Inc. S-8233A Series V3 battery Hi-z Delay Delay Delay V3 battery Hi-z Delay Delay Over current mode indicates the open voltage of the charger ...

Page 18

... Remark The charger is assumed to charge with a constant current V1, V2, and V3 batteries Hi-z Hi-z Delay t IOV1 IOV2 Over charge mode, Over discharge mode, Over current mode indicates the open voltage of the charger. CHA Figure 8 Seiko Instruments Inc. Rev.3.2 Hi-z Hi-z Delay t IOV3 Inhibit charging and discharging CTL terminal CTL terminal ...

Page 19

... S-8233A series VC2 FET3 CD3 VSS Figure over discharge detection delay time (t CU1 CU3 ) are changed with external capacitors (C4 to C6). See IOV1 Seiko Instruments Inc. S-8233A Series EB MΩ 10 KΩ VMP 1 KΩ R7 CTL GND: Normal operation Floating: Inhibit charging and discharging ...

Page 20

... IC of patents owned by a third party becomes equal to or higher than the over discharge the over discharge and over charge conditions are entered and the charging Seiko Instruments Inc. ) before the battery voltage which falls to the over charge release voltage CU Rev.3.2 ...

Page 21

... CU 4.20 4.10 4. 100 -40 Overdischarge release voltage vs. temperature V =2.35[V] DD 2.95 2.85 2. 100 -40 Overcurrent2 detection voltage vs. temperature V =0.3 [V] IOV1 0.65 0.60 0. 100 -40 Seiko Instruments Inc. S-8233A Series V =4.10[ Ta(°C) V =2.85[ Ta(°C) V =0.6 [V] IOV2 - Ta(°C) 100 100 ...

Page 22

... Overdischarge detection time vs. temperature C=0.47[uF] V =11.5 [ 100 -40 Overcurrent2 detection time vs. temperature C=0.1[uF] V =10 100 Seiko Instruments Inc. V =4.5 [ Ta(°C) C=0.1[uF - Ta(°C) V =10.5 [ Ta(°C) Rev.3.2 ...

Page 23

... Delay time vs. power supply voltage Over current 3 (load short) detection time vs. power supply voltage 1.0 0 Caution Please design all applications of the S-8233A Series with safety in mind. BATTERY PROTECTION IC FOR 3-SERIAL-CELL PACK V =6.0 [ 100 Ta =25(° (V) CC Seiko Instruments Inc. S-8233A Series 23 ...

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... Seiko Instruments Inc. Although Seiko Instruments Inc. exerts the greatest possible effort to ensure high quality and reliability, the failure or malfunction of semiconductor products may occur. The user of these products should therefore give thorough consideration to safety design, including redundancy, fire-prevention measures, and malfunction prevention, to prevent any accidents, fires, or community damage that may ensue ...

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