參數(shù)資料
型號(hào): LNK500P
廠商: POWER INTEGRATIONS INC
元件分類: 穩(wěn)壓器
英文描述: Energy Efficient, CV or CV/CC Switcher for Very Low Cost Adapters and Chargers
中文描述: 0.4 A SWITCHING REGULATOR, 49.5 kHz SWITCHING FREQ-MAX, PDIP7
封裝: PLASTIC, MS-001-AB, DIP-8
文件頁數(shù): 6/20頁
文件大?。?/td> 505K
代理商: LNK500P
6
LNK500
B
3/03
However, in laboratory bench tests, it is often more convenient
to test the power supply output characteristic starting from a low
output current and gradually increasing the load. In this case,
the optocoupler feedback regulates the output voltage until the
peak output power curve is reached as shown in Figure 8. Under
these conditions, the output current will continue to rise until
the peak power point is reached and the optocoupler turns off.
Once the optocoupler is off, the CONTROL pin feedback
current is determined only by R1 and R3 and the output current
therefore folds back to the inherent CC characteristic as shown.
Since this type of load transition does not normally occur in a
battery charger, the output current never overshoots the inherent
constant current value in the actual application.
In some applications it may be necessary to avoid any output
current overshoot, independent of the direction of load variation.
To achieve this goal, the minimum voltage feedback threshold
should be set at V
. This will ensure that the voltage at the
CC to CV transition point of the inherent characteristic will
always occur below the voltage feedback threshold. However,
the output voltage tolerance is then increased, since the inherent
CV characteristic tolerance below V
is added to the
tolerance of the optocoupler feedback circuit.
Applications Example
The circuit shown in Figure 9 shows a typical implementation
of an approximate constant voltage / constant current (CV/CC)
charger using
LinkSwitch
. This design delivers 2.75 W with a
nominal peak power point voltage of 5.5 V and a current of
500 mA. Efficiency is greater than 70% over an input range of
85 VAC to 265 VAC.
The bridge rectifier, BR1, rectifies the AC input. Resistor, RF1
is a fusible type providing protection from primary side short
circuits. The rectified AC is smoothed by C1 and C2 with
inductor L1 forming a pi-filter in conjunction with C1 and C2
to filter conducted EMI. The switching frequency of 42 kHz
allows such a simple EMI filter to be used without the need for
a Y capacitor while still meeting international EMI standards.
When power is applied, high voltage DC appears at the DRAIN
pin of
LinkSwitch
(U1). The CONTROL pin capacitor C3 is then
charged through a switched high voltage current source connected
internally between the DRAIN and CONTROL pins. When the
CONTROL pin reaches approximately 5.6 V relative to the
SOURCE pin, the internal current source is turned off. The
internal control circuitry is activated and the high voltage MOSFET
starts to switch, using the energy in C3 to power the IC.
When the MOSFET is on, the high voltage DC bus is connected
to one end of the transformer primary, the other end being
connected to primary return. As the current ramps in the
primary of flyback transformer T1, energy is stored. This
energy is delivered to the output when the MOSFET turns off
each switching cycle.
The secondary of the transformer is rectified and filtered by D6
and C5 to provide the DC output to the load.
LinkSwitch
dramatically simplifies the secondary side by
controlling both the constant voltage and constant current
regions entirely from the primary side. This is achieved by
monitoring the primary-side V
OR
(voltage output reflected).
Diode D5 and capacitor C4 form the primary clamp network.
This both limits the peak drain voltage due to leakage inductance
and provides a voltage across C4, which is equal to the V
plus
an error due to the parasitic leakage inductance. Resistor R2
filters the leakage inductance spike and reduces the error in the
value of the V
. Resistor R1 converts this voltage into a current
that is fed into the CONTROL pin to regulate the output.
During CV operation the output is regulated through control of
the duty cycle. As the current into the CONTROL pin exceeds
approximately 2 mA, the duty cycle begins to reduce, reaching
30% at a CONTROL pin current of 2.3 mA.
Under light or no-load conditions, when the duty cycle reaches
approximately 4%, the switching frequency is reduced to lower
energy consumption.
If the output load is increased beyond the peak power point
(defined by 0.5
·
L
·
I
2
·
f), the output voltage and V
falls. The
reduced CONTROL pin current will lower the internal
LinkSwitch
current limit (current limit control) providing an
approximately constant current output characteristic. If the load
is increased and the CONTROL pin current falls below
approximately 1 mA, the CONTROL pin capacitor C3 will
discharge and the supply enters auto-restart.
Current limit control removes the need for any secondary side
current sensing components (sense resistor, transistor, opto
coupler and associated components). Removing the secondary
sense circuit dramatically improves efficiency, giving the
associated benefit of reduced enclosure size.
Key Application Considerations
Design Output Power
Table 1 (front page) provides guidance for the maximum
continuous output power from a given device under the
conditions specified.
The output of chargers (CV/CC) are normally specified at the
typical output peak power point. Conversely, non-charger
applications (CV only, which applies to many converters such
as adapters, standby/auxiliary supplies and other embedded
AC-DC converters) where CC operation is not required, are
normally specified at the minimum output power they will
supply under worst case conditions.
相關(guān)PDF資料
PDF描述
LNK500G-TL Energy Efficient, CV or CV/CC Switcher for Very Low Cost Adapters and Chargers
LNK500P-TL Energy Efficient, CV or CV/CC Switcher for Very Low Cost Adapters and Chargers
LNK501G Energy Efficient, CV/CC Switcher for Very Low Cost Chargers and Adapters
LNK501P Energy Efficient, CV/CC Switcher for Very Low Cost Chargers and Adapters
LNK501 Energy Efficient, CV/CC Switcher for Very Low Cost Chargers and Adapters
相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
LNK500P_1 制造商:POWERINT 制造商全稱:Power Integrations, Inc. 功能描述:2.4W Cell Phone Charger
LNK500PN 功能描述:交流/直流開關(guān)轉(zhuǎn)換器 3W 85-265 VAC 4W 230 VAC RoHS:否 制造商:STMicroelectronics 輸出電壓:800 V 輸入/電源電壓(最大值):23.5 V 輸入/電源電壓(最小值):11.5 V 開關(guān)頻率:115 kHz 電源電流:1.6 mA 工作溫度范圍:- 40 C to + 150 C 安裝風(fēng)格:SMD/SMT 封裝 / 箱體:SSO-10 封裝:Reel
LNK500P-TL 制造商:POWERINT 制造商全稱:Power Integrations, Inc. 功能描述:Energy Efficient, CV or CV/CC Switcher for Very Low Cost Adapters and Chargers
LNK501 制造商:POWERINT 制造商全稱:Power Integrations, Inc. 功能描述:Energy Efficient, CV/CC Switcher for Very Low Cost Chargers and Adapters
LNK501G 功能描述:IC SWIT OCP CV/CC HV 8SMD RoHS:否 類別:集成電路 (IC) >> PMIC - AC-DC 轉(zhuǎn)換器,離線開關(guān) 系列:LinkSwitch® 標(biāo)準(zhǔn)包裝:1 系列:FPS™ 輸出隔離:隔離 頻率范圍:61kHz ~ 73kHz 輸入電壓:8 V ~ 26 V 輸出電壓:650V 功率(瓦特):12W 工作溫度:-40°C ~ 115°C 封裝/外殼:8-DIP(0.300",7.62mm) 供應(yīng)商設(shè)備封裝:8-MDIP 包裝:Digi-Reel® 其它名稱:FSL206MRBNFSDKR
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