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TEA1103TS 데이터시트 PDF




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부품번호 TEA1103TS 기능
기능 Fast charge ICs for NiCd and NiMH batteries
제조업체 NXP Semiconductors
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TEA1103TS 데이터시트, 핀배열, 회로
INTEGRATED CIRCUITS
DATA SHEET
TEA1103; TEA1103T;
TEA1103TS
Fast charge ICs for NiCd and NiMH
batteries
Preliminary specification
Supersedes data of 1997 Oct 09
File under Integrated Circuits, IC03
1999 Jan 27




TEA1103TS pdf, 반도체, 판매, 대치품
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PROTECTION
3.3 V
MTV
2.8 V
4.25 V
156
k
1V
9
12
k
0.75 V
36
k
NTC
present
0.3 V
Tmin
1V
Tmax
1.9 V
Tcut-off
8
NTC
Vbat
DA/AD
CONVERTER
Vbat
19
battery
low
end
refresh
no-
battery
Vstb
1
Rref
20
CHARGE CONTROL
AND
OUTPUT DRIVERS
Vbat
Vreg
OSC
14
fast top standby load
charge off current current
1.25/Rref 3 µA 10 µA 40 µA
4.25 V
LS
OSC
PWM
SET
A2 R Q
S
A1 A3
4×
15
PWM
17 LS
18
AO
1.325 V/Vstb
NiCd
NIMH
1.9 V
no-
battery
A4
100 mV
refresh
10
RFSH
TEA1103
CONTROL LOGIC
12
VP
SUPPLY
BLOCK
13
Vsl
16
VS
3
GND
11
FCT
TIMER
AND
CHARGE
STATUS
INDICATION
2 IB
4 PSD
5 LED
6 POD
7 PTD
MBH547
Fig.1 Block diagram.

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TEA1103TS 전자부품, 판매, 대치품
Philips Semiconductors
Fast charge ICs for NiCd and NiMH
batteries
Preliminary specification
TEA1103; TEA1103T;
TEA1103TS
If pin RFSH is connected to ground by depressing the
switch, the TEA1103x discharges the battery via an
external transistor connected to pin RFSH. The discharge
current is regulated with respect to the external (charge)
sense resistor (Rsense). End-of-discharge is reached when
the battery is discharged to 1 V per cell. Refreshing the
battery can only be activated during charging of NiCd and
NiMH batteries.
The inhibit mode has the main priority. This mode is
activated when the Vstb input pin is connected to ground.
Inhibit can be activated at any charge/discharge state,
whereby the output control signals will be zero, all LEDs
will be disabled and the charger timings will be set on hold.
Table 1 gives an operational summary.
Table 1 Functionality of program pins
FUNCTION
Inhibit
Refresh
T/t detection
T/t and voltage peak detection
Voltage peak detection
Trickle charge at standby
Voltage regulation at standby
FCT
X(1)
not low(2)
floating
high
not low
not low
not low
not low
NTC
X(1)
X(1)
note 3
note 3
note 4
X(1)
note 4
note 3
RFSH
X(1)
low
not low
not low
not low
not low
not low
not low
Notes
1. Where X = don’t care.
2. Not low means floating or high.
3. The NTC voltage has been to be less than 3.3 V, which indicates the presence of an NTC.
4. The NTC voltage is outside the window for NTC detection.
5. Vstb has to be floating or set to a battery regulating voltage in accordance with the specification.
Vstb
low
not low
not low
not low
not low
high
not low
floating(5)
Supply block
The supply block delivers the following outputs:
A power-on reset pulse to reset all digital circuitry at
battery insertion or supply switch-on. After a general
reset the system will start fast charging the battery.
A 4.25 V stabilized voltage source (VS) is externally
available. This source can be used to set the thermistor
biasing, to initialize the programs, to supply the external
circuitry for battery voltage based charge indication and
to supply other external circuitry.
A 4.25 V bias voltage (Vsl) is available for use for more
indication LEDs. This output pin will be zero during the
initialization period at start-up, thus avoiding any
interference of the extra LEDs when initializing.
Charge control
The charge current is sensed via a low-ohmic resistor
(Rsense), see Fig.4. A positive voltage is created across
resistor Rb by means of a current source Iref which is set by
Rref in the event of fast charge and by an internal bias
current source in the event of top-off and trickle charge
(IIB), see Fig.1. The positive node of Rb will be regulated to
zero via error amplifier A1, which means that the voltage
across Rb and Rsense will be the same. The fast charge
current is defined by the following equation:
Ifast × Rsense = Rb × Iref
(1)
The output of amplifier A1 is available at the loop stability
pin LS, consequently the time constant of the current loop
can be set. When Vpeak (NiCd and NiMH) is applied, the
current sensing for the battery voltage will be reduced,
implying that the charge current will be regulated to zero
during:
tsense = 210 × POD × tosc
(2)
Actually battery voltage sensing takes place in the last
oscillator cycle of this period.
1999 Jan 27
7

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