參數(shù)資料
型號: MCZ33099CEG
廠商: 飛思卡爾半導(dǎo)體(中國)有限公司
英文描述: Adaptive Alternator Voltage Regulator
中文描述: 自適應(yīng)發(fā)電機(jī)電壓調(diào)節(jié)器
文件頁數(shù): 10/18頁
文件大?。?/td> 230K
代理商: MCZ33099CEG
Analog Integrated Circuit Device Data
Freescale Semiconductor
10
33099
TYPICAL APPLICATIONS
Modulated (PWM) waveform having a variable ON / OFF duty
cycle ratio that is determined by an analog or a digital duty
cycle control circuitry that responds to variations in the
system voltage due to variations in system load current. The
PWM waveform has a duty cycle regulation output frequency
of about 395 Hz (f
dc
) defined by an 8-bit division of an internal
101 kHz oscillator clock frequency (f
osc
). The GATE voltage
at the GATE pin is due to a charge pump GATE voltage (V
g
)
generated by voltage multiplication using an internal charge
pump voltage regulator. The high GATE-to-source voltage
applied to the external MOSFET during the ON cycle of the
PWM waveform minimizes a low drain-to-source ON
resistance (R
DS(ON)
) and associated drain-to-source voltage
V
d(SAT)
to maximize the field current while minimizing the
associated power dissipation in the MOSFET.
A unique feature of the 33099 is the combinational use of
analog and digital duty cycle controllers to provide a Load
Response Control (LRC) duty cycle function when rotor
frequency f
ph
is less than frequency f
2
. A classic analog duty
cycle function is provided at the GATE output when
frequency f
ph
is greater than frequency f
2
. During the LRC
mode when f
1
< f
ph
< f
2
, a sudden decrease in the system
voltage due to a sudden increase in system load current will
cause the analog duty cycle to rapidly increase to as great as
100%. However, the LRC circuitry causes the digital duty
cycle to increase to 100% at a controlled predetermined LRC
rate and overrides the analog duty cycle. Thus the alternator
response time is decreased in the LRC mode and prevents
the alternator from placing a sudden high torque load on the
automobile engine during this slow RPM mode. This can
occur when a high current accessory is switched on to the 12
V system, producing a sudden drop in system voltage. When
frequency f
ph
is greater than frequency f
2
, the slow LRC
response is not in effect and the analog duty cycle controller
controls the PWM voltage waveform applied to the external
MOSFET to regulate the system voltage. By selectively
coupling the LRC1 and LRC2 pins to ground or leaving them
open, the user can program four different LRC rates (R
lrc1
-
R
lrc4
) from 9.37%/sec to 37.4%/sec. During an initial ignition
ON and engine start-up, the LRC rate is also in effect to
minimize alternator torque loading on the engine during start,
even when a Wide Open Throttle (WOT) condition (f
ph
> f
2
)
occurs.
An internal N-Channel MOSFET is provided on the IC to
directly drive lamp current as a fault indicator. The fault lamp
is connected between the low side of the ignition switch and
the LAMP DRAIN pin of the IC. A fault is indicated during an
undervoltage battery condition when frequency f
ph
is greater
than frequency f
2
, during an overvoltage battery condition,
and when frequency f
ph
is less than frequency f
1
. Frequency
f
ph
< f
1
when an insufficient alternator output voltage results
or a slow or non-rotating rotor occurs due to a slipping or
broken belt. An external LAMP GATE pin is also provided for
the internal lamp driver to allow the user to override the
internal IC fault logic and externally drive the internal lamp
drive MOSFET.
When a loose wire or battery pin corrosion causes the
Remote voltage to decrease but is not a Remote Open
condition, the system voltage will increase, causing an
overvoltage Lamp fault indication, and is regulated at a
secondary value of about 18.5 V.
During a system load dump condition, load dump
protection circuitry prevents GATE-to-source drive to the
external MOSFET and to the internal lamp drive MOSFET.
This ensures that neither the field current nor the lamp
current is activated during load dump conditions. A drain-to-
GATE voltage clamp is also provided for the internal lamp
driver for further protection of this driver during load dump.
An ignition pin (IGN) is provided to activate the regulator
from the standby mode into a normal operating mode when
the ignition switch is ON and an ignition voltage (V
ign
) is
greater than a power up/down ignition threshold voltage
(V
Tign
). When the ignition switch is OFF, voltage V
ign
is less
than voltage V
Tign
, and the regulator is switched into a low
current standby mode, when frequency f
ph
< f
1
. The IGN pin
can either be coupled to the low side of the ignition switch or
to the low side of the lamp. When the IGN pin is connected to
the low side of the lamp, the lamp must be shunted by a
resistor to ensure that ignition ON is sensed, even with an
OPEN lamp fault condition. When the lamp in ON, lamp
current is polled OFF periodically at an ignition polling
frequency in order for the IGN pin to periodically sense that
the ignition voltage is high even though the lamp is ON. An
ignition input pull-down current (I
ign
) is provided to pull
voltage V
ign
to ground when the IGN pin is OPEN or
terminated on a high resistance.
Two ground pins are provided by the 33099 to separate
sensitive analog circuit ground (AGND) from noisy digital and
high-current ground (GND).
ALTERNATOR REGULATOR BIASING AND
POWER UP/DOWN
The biasing of the regulator is derived from the BAT pin
voltage V
bat
. In the normal operating mode when the ignition
switch is ON and voltage V
ign
is greater than V
Tign
(about
1.25 V), a 5.0 V V
DD
voltage regulator biases the IC logic and
provides bias to a bandgap shunt voltage regulator. The
bandgap regulator maintains a reference voltage (V
ref
) of
approximately 2.0 V with an internal negative temperature
coefficient (-TC) as well as a 1.25 V Zero Temperature
Coefficient (OTC) reference voltage. Additional bias currents
and reference voltages, including a charge pump GATE
voltage V
g
, are also generated from voltage V
bat
. The
typically ignition ON drain current (I
Q1(on)
) is about 6.5 mA at
25°C. When the ignition switch is OFF and voltage V
ign
is
less than V
Tign
, the regulator is in a low current standby
mode, having a standby drain current of about 0.7 mA
(I
Q1(off)
) at 25°C. During the sleep mode, some internal
voltage regulators and bias currents are either terminated or
minimized. However, the V
DD
regulator and the bandgap
voltage regulator continue to maintain voltages V
DD
for the
logic, the 2.0 V V
ref
, and the 1.25 V reference voltage. In
addition, all logic is reset in the standby mode.
After switching the ignition switch to the ON position,
voltage V
ign
will exceed voltage V
Tign
,
causing comparator
C
ign
to switch states, providing an ignition-ON signal to the
Ignition Delay circuit. After an Ignition start Delay Time of
500 ms, the Ignition Delay circuit activates additional current
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MCZ33099EG 功能描述:線性穩(wěn)壓器 - 標(biāo)準(zhǔn) ALT. VOLT REG 14.8 RoHS:否 制造商:STMicroelectronics 輸出類型: 極性: 輸出電壓:1.8 V 輸出電流:150 mA 負(fù)載調(diào)節(jié): 最大輸入電壓:5.5 V 線路調(diào)整率: 最大工作溫度:+ 125 C 安裝風(fēng)格:SMD/SMT 封裝 / 箱體:SOT-323-5L
MCZ33099EGR2 功能描述:線性穩(wěn)壓器 - 標(biāo)準(zhǔn) ALT. VOLT REG 14.8 RoHS:否 制造商:STMicroelectronics 輸出類型: 極性: 輸出電壓:1.8 V 輸出電流:150 mA 負(fù)載調(diào)節(jié): 最大輸入電壓:5.5 V 線路調(diào)整率: 最大工作溫度:+ 125 C 安裝風(fēng)格:SMD/SMT 封裝 / 箱體:SOT-323-5L
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