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Technical Reference Note AIF - PFC Power Factor Correction Series AIF - PFC 1600W AC-DC Converter Module
The PFC Power Factor Correction module is part of Astec's family of advanced High Density modular power supply components. Featuring high reliability and convenient control and monitoring functions, these modules are designed to reduce product development time and enhance system performance. The PFC is designed to work over all typical line voltages used worldwide, and provide unity power factor with very low levels of harmonic distortion in line current. The PFC includes active start-up current control. Power Line Disturbance (PLD) circuitry copes with a wide range of input voltage fluctuations..
Electrical Parameters
Input
85 - 264 VAC 120 - 370VDC (Configurable) Input Surge 290Vac / 1s Efficiency 95%@ 230Vac, 1600W (Typical) Total Harmonic 10% Distortion Input range
Special Features
*
* * * * * * * *
* * * * Switching Frequency 125KHz
Unity Power Factor DC input (Configurable) High Efficiency - up to 95% Universal input voltage and frequency range Up to 1600W output power Parallelable with current sharing within 10% < 10% harmonic distortion conforming to IEC 10003-2 Compliance 100C baseplate operating temperature. High Reliability - over 1 million hours MTBF @ baseplate temperature 50C Programmable Power Fail Warning Signal EEPROM data storage via I2C interface Power Density up to 290W/in3
Control Enable TTL compatible (Positive & negative enable options)
Output
Output Voltage Io =4.2A / Vi > 180Vac Io = 0 380V typ 393V typ
Maximum output Power 85Vac Vin 120Vac 1000W 120Vac < Vin < 220Vac See P. 16 1600W Vin 220Vac Output voltage Adjust range 76% - 100% of nominal output
Environmental Specifications
* Operating temperature: -20C to +100C (baseplate) * Storage temperature: -40C to +110C * Meet power line disturbance immunity specification per IEC 61000-4-11 " Generic Immunity Standards against voltage dips, interruptions" * Pb-free reflow compatible and ROHS Compliant
Overvoltage Protection 430V
Safety
UL, cUL TUV 60950 Recognized EN60950 Licensed
MODEL : AIF - PFC SERIES March 2006 REVISION 09 SH 1 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
AIF - PFC SERIES THIS SPECIFICATION COVERS THE REQUIREMENTS FOR A New Full Brick 1600W AC/DC Converter
MODEL NAME AIF04ZPFC-01L AIF04ZPFC-01NL AIF04ZPFC-02L AIF04ZPFC-02NL AIF04ZPFC-01NTL AIF04ZPFC-01NNTL AIF04ZPFC-02NTL AIF04ZPFC-02NNTL * 1600W max
Vout,Iout 380V, 4.2A 380V, 4.2A 380V, 4.2A 380V, 4.2A 380V, 4.2A 380V, 4.2A 380V, 4.2A 380V, 4.2A
Suffix
NL L NTL
Option Negative Logic Enable Positive Logic Enable Non-thread hole
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 2 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Electrical Specifications
Unless otherwise indicated, specifications apply over all operating input voltage and temperature conditions. Standard test condition on a single unit. Tambient: L1: L2: Enable: +Vout1: -Vout1: Trim(Vadj): Output Cap: 25C 115Vac, 220Vac return pin for L1 Open connect to load connect to load (return) connect to S GND 470uF x 2
ABSOLUTE MAXIMUM RATINGS Stresses in excess of the absolute maximum ratings can cause permanent damage to the device. These are absolute stress ratings only. Functional operation of the device is not implied at these or any other conditions in excess of those given in the operational sections of the specs. Exposure to absolute maximum ratings for extended periods can adversely affect device reliability. Parameter Input Voltage: Continuous: Surge Voltage (1 sec) Input Frequency Operating Case Temperature Start up Case Temperature Storage Temperature Operating Humidity Isolation Input to Baseplate Output to Baseplate Baseplate Capacitance Device All All All All All All All TSTG Symbol VI VI Tc Min 85 47 -20 -40 -40 Typ 50/60 Max 264 290 63 100 100 110 95 2700 2700 1300 Unit Vac Vac Hz C C C % Vdc Vdc PF
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 3 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
CONTROL SIGNALS Control Function TEMP MON - temperature monitor signal V ADJ - voltage adjust* C MON - current monitor signal C SHARE - current share function** CLK OUT - clock output Conditions Parameter VTEMP MON Sensitivity Source impedence Vo IC MON IO/IC MON C SHARE accuracy Max no. of units VCLK OUT Clock freq. Max fan out VCLK IN Clock freq PFWset point PFWset point PFWset point PFW ADJ current source VPFW VPFW PFWcurrent source VLD ENABLE VLD ENABLE LD ENABLE current source VPF ENABLE VPF ENABLE VPF ENABLE VPF ENABLE PF ENABLE current source PV_AUX Voltage PV_AUX Voltage Min 9.8 60 0.9 Typ 10 16 1 4.2 ?% 5 1 Max 10.2 100 1.1 ?0 10 1.03 2 6 1.05 215 335 355 15 0.4 15 0.4 0.8 5 5 0.8 400 8 11 9 Units mV/C K % VOnom mA A/mA %IO rated Vp-p MHz Vp-p MHz VDC VDC VDC mA V V mA V V mA V V V V A V V
Adjust using external resistor IO = 4.2A IO = 20 to 100% IOrated C SHARE pins of modules in parallel connected CLK IN open
0.97 4.5 0.95 195 305 325 12 0 - 12 0 - 0 2.2 2.2 0
CLK IN - clock input PFWADJ - power fail warning adjust PFWADJ=0 to 2.05 VDC PFWADJ=3.2 VDC PFWADJ = 3.40VDC Input Power OK, IPFW = 0 Input Power Fail, IPFW = 15mA (PFWshort to S_GND) Load enabled, (ILD ENABLE = 0) Load disabled, (ILD ENABLE = 15mA) LD ENABLE short to S_GND Negative Enable: Module enabled Module disabled Positive Enable: Module enabled Module disabled VENABLE = 0.8V IPV_AUX = 0A IPV_AUX = 20mA
PFW- power fail warning***
LD ENABLE - load enable
1 205 320 340 1 13.7 0.2 2.9 13.7 0.2 2.9
PF ENABLE - module enable***
PV_AUX***
* PFWis not valid when using voltage adjust feature ** For AIF04ZPFC-01L, total input current of all the modules must not exceed 16A rms *** Only apply on primary side
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 4 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
INPUT SPECIFICATIONS Parameter Operating Input Voltage Input Current (VI = 115Vac, Load = 1000W) Inrush Transient (Need external inrush limiting circuit) Power Factor No Load Input Power (VI = VI,nom ) Total Harmonic Distortion (IEC1000-3-2)
Note: 1) 2) 3) 4) 5) 6) Half cycle surge current due to input transient surge must be limited to 20A peak or less Need external inrush limiting circuit For AIF04ZPFC-01L, total input current for modules connected in parallel must not exceed 16A For AIF04ZPFC-02L, negative rail input rectifiers must be provided by external circuitry. See P.24 Total harmonic distortion - input harmonics meet the requirements of IEC 1000-3-2 The PFC's LD ENABLE signal is recommended to be used to enable the load in case of initial surge load condition
Device All
Symbol VI II,max
Min 85 -
Typ
Max 264
Unit VAC A Apk
-
10 20
Po 500W Po 1000W All
-
0.96 0.98 -
0.97 0.99 -
3.8
W
All
-
-
-
10
%
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 5 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
OUTPUT SPECIFICATIONS
Parameter Output Voltage Io = 4.2A / VI > 180V Io = 0 Maximum output power For 85Vac VI 120Vac For VI > 220 Vac For 120Vac < VI < 220Vac Efficiency
VI = 115Vac, (1000W) VI = 230Vac, (1000W) VI = 230Vac, (1600W)
Device
Symbol
Min 370
Typ 380 393
Max 400 1000 1600 See P.17
Unit V V W W
90 92 92 0.5 0.5
92 94 95 2.5 2.5 4.0 3.5
% % % Sec Sec
Turn-On Time
VI = 115Vac VI = 230Vac
External Output Capacitor
470
3000
F
GENERAL SPECIFICATIONS
Parameter Calculated MTBF (Io = 2.6A ; TB = 40C, MIL-217FN2)
Device All All
Symbol -
Min -
Typ 450K 300 (9.6)
Max -
Unit Hours g(oz.)
Weight
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 6 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
FEATURE SPECIFICATIONS
Parameter PF ENABLE Interface : Positive Logic - No suffix Low Logic - Module Off High Logic - Module On Negative Logic - Suffix "N" Low Logic - Module On High Logic - Module Off Enable current source (Venable = 0.8V)
Device All All All All All
Symbol Venable Venable Venable Venable
Min 0 2 0 2
Typ
Max 0.8 5 0.8 5 400
Unit V V V V A
Output Voltage Adjustment Range
-
76
-
100
%Vo
Output Overvoltage Shutdown (latch off)
Output ripple
Vin = 115Vac, Vo = 380V, Io = 2.6A
All
420 11
430
V Vp-p
Undervoltage Lockout
Turn-on Point Turn-off Point
All All All
-
79 57 105
84.5 62 120
V V C
Overtemperature shutdown
(Baseplate temperature)
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 7 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Function Description
This section explains how to implement the functions found on the AIF - PFC Series. All signals are on primary side.
PFC Enable Input (PF ENABLE)
The enable pin is a TTL compatible input used to turn the output of the module on or off. For module with no suffix, the output is enabled when the PF ENABLE (pin 16) is open or driven to a logic high > 2.2V. The output is disabled when the PF ENABLE is connected to S GND (pin 13) or driven to a logic low of < 0.8V (but not negative). For module with suffix "N", the output is enabled when the PF ENABLE is connected to S GND or driven to a logic low < 0.8V (but not negative). The output is disabled when the PF ENABLE is open or driven to a logic high > 2.2V.
+O/P
+O/P
8 9
1 16
-O/P
8 9
1 16
-O/P
PFENABLE
S GND (Signal Ground)
The S GND pin is connected to the internal common ground of the module. It is also internally connected to the -O/P terminals. NOTE: When connecting S GND to external circuitry care must be taken to ensure that the current flowing through this pin is kept below 25mA.
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 8 of 31
PFENABLE
SGND
SGND
Technical Reference Note AIF - PFC Power Factor Correction Series
DC-DC Converter Module Enable Output (LD ENABLE)
After the PFC power up sequence, the power to the load can be enabled. This can be performed manually or the PFC can automatically enable the load using the LD ENABLE signal.
Depends on external inrush current limit circuit
Outputstabilized OUTPUT VOLTAGE
HIGH LD ENABLE LOW t on
Initially the load is disabled and the LD ENABLE (pin 15) is at 0.4V (LOW). When the PFC power up sequence has completed, the LD ENABLE voltage goes HIGH. And the LD ENABLE will stay high as long as Vin is above 175Vac or Vout is above 250V, even if PF_ENABLE is in disable mode. (Please see the application example section at P.25 for the external circuit to interlock the LD-ENABLE from PF_ENABLE) The LD ENABLE pin is capable of delivering 2.7mA at 1.5V when HIGH. See electrical specifications for exact figures.
Power Fail Warning
If output voltage can not be maintained at the pre-programmed PFW threshold voltage, the PFW (pin 14) will go from HIGH to LOW.
INPUT VOLTAGE
PFWThreshold OUTPUT VOLTAGE
PFW
The output of the PFW signal can drive an opto-coupler to provide an isolated signal from primary side to the secondary side. The nominal factory set PFW threshold is set at 340V. MODEL : AIF - PFC Series March 2006 REVISION 09 SH 9 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Power Fail Warning Adjust
The level at which a Power Fail Warning occurs can be programmed using the PFW Adjust input (pin 12). If the pin is left unconnected then the PFW operates at the default factory set value.
The output from the PFW ADJ pin is a 1mA current source. To adjust the PFW threshold, a voltage source (0 - 4Volts) or a programming resistance (0 - 4Kohm) referenced to s S GND (pin 13) should be connected. This allows adjustment of the PFW threshold from 280V up to 340V. The value of resistance or voltage required can be read from the graph above.
Clock Signals (CLK IN, CLK OUT)
The PFC's internal clock is accurate and stable over its full operating range and synchronization is not normally required, but it can reduce noise in paralleled systems. Clock signals can be wired in series (the CLK OUT pin of one module to the CLK IN pin of the next etc) in which case all the modules will be synchronized with the first module in the chain. Alternatively, an external clock signal of TTL level at 1MHz 10% can be connected to the CLK IN pins of all the modules.
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 10 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
FromCLKOUTof previousmodule
ToCLKINof nextmodule
+O/P
+O/P
8 9
1 16
-O/P
8 9
1 16
-O/P
FromSGNDof previousmodule
ToSGNDof nextmodule
If the clock input to any module fails, the module will automatically switch back to its internal clock and will continue to operate at full power even in current sharing systems.. The CLK IN and CLK OUT signals are AC coupled.
Temperature Monitoring (TEMP MON)
The TEMP MON pin provides an indication of the module's internal temperature. The voltage at the TEMP MON pin is proportional to the temperature of the module baseplate at 10mV per C, where:
Module temperature (C) = (Vtemp mon X 100) - 273 The temperature monitor signal can be used by thermal management systems (e.g. to control a variable speed fan). It can also be used for overtemperature warning circuits and for thermal design verification of prototype power supplies and heatsink.
3.73V 3.48V V 3.23V 2.98V 2.73V 2.53V C 0 -20 C C 50 100 C
TEMPMON
Moduleinternaltemperature
+O/P
8 9
1 16
-O/P
V
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 11 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Current Monitoring (C MON)
The C MON pin provides an indication of the amount of current supplied by the module. The output of the C MON pin is a current source proportional to the output current of the module, where IO / I CMON = 4.2A/1mA
If a 4.2K Ohm resistor is connected then the voltage in Volts on the C MON pin is directly equivalent to the current supplied by the module in Amps. Maximum voltage on C MON is 6V
1.28mA
1.25mA
1.00mA 0.75mA 0.50mA 0.25mA 0.00mA
ICMON
0
2.1A
4.2A
5.4A
IO
0-1mA
+O/P
8 9
1 16
-O/P
4.2Kohmmax
V
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 12 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Current Sharing (C SHARE)
To ensure that all modules in a parallel system accurately share current, the C SHARE pins on each module should be connected together.
FromCSHAREof previousmodule
ToCSHAREof nextmodule
+O/P
+O/P
8 9
1 16
-O/P
8 9
1 16
-O/P
FromSGNDof previousmodule
ToSGNDof nextmodule
The voltage on the C SHARE pins represents the average load current per module. Each module compares this average with its own current and adjusts its output voltage to correct the error. In this way the module maintains accurate current sharing even under variable or light load conditions. Note: 1) The S GND pins of each module must also be connected together to ensure accurate current sharing. 2) Current flow to S GND must less than 25mA
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 13 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Output Voltage Adjust (V ADJ)
The output voltage of the module may be accurately adjusted from 76% to 100% of the nominal output voltage. Adjustment can be made using a resistor connected as below.
V -a d j v alu e c h a rt
40 0 39 0 38 0 37 0 36 0 V-out 35 0 34 0 33 0 32 0 31 0 30 0 1 .0 2 .3 5 .1 1 1 .4 2 5 .6 K -O h m 5 7 .7 12 9 .7 2 9 1.9 6 5 6.8
+O/P
8 9
1 16
-O/P
R
Vout = Vr * (1 + Rh * ( 1 / (Rj + R) + 1 / Rw)) + 10.94 Where R is the resistor connected between the Vadj pin to S_GND (units in kOhm) Vr = 5.029 Rh = 1084 Rw = 19.2 Rj = 58.5
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 14 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
DC ENABLE
+O/P
8 9
1
DCENABLE
SGND
16
-O/P
For using DC input, connect the DC ENABLE pin to S GND
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 15 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
I2C EEPROM Content Programming (SDA, SCL)
This function is provided for product information storage, template as per customer define. Connect RS232 (Printer Port) from PC to Test unit at 300Vdc in and test with Read/Write capability of the I2C EEPROM.
P in 2
P in 5
P in 8
P in 12
P in 13
P in 1 8 to 25
EEPROM CONTENT The module is equipped with a 256 byte EEPROM, 24LC2BT-E/ST or equivalent. This device will be programmed during the manufacturing process. The EEPROM content will include the following information: Manufacturer name string " ASTEC" Product name and product number Serial number assigned by manufacturer Max output power
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 16 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
DESIGN CONSIDERATIONS Maximum Output Power Vs Input Voltage
The maximum output power available varies with the input voltage as shown below.
1750
1600
OUTPUTPOWER(W)
1500
1250
1000
1000 750
85
120
230
264
100
200
300
INPUTVOLTAGE(Vac)
Efficiency Vs Input Voltage and Output Power
Efficiency vs. Load Current
100 95 Efficiency [%] 85Vin 110Vin 230Vin 264Vin
90 85
80 75 10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Load [A]
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 17 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Input Undervoltage Protection
An input undervoltage protection circuit protects the module under low input voltage conditions. Hysteresis is built into the PFC Series module to allow for high levels of variation on the input supply voltage without causing the module to cycle on and off. PFC modules will operate when the input exceeds 85Vac and turn off below 63Vac.
Input Fusing
ASTEC modules do not have an in-line fuse fitted internally. In order to comply with CSA, VDE and UL safety regulations it is recommended that a fuse of 250Vac, 15A be fitted at the module's input.
Output Capacitor
The PFC requires an output hold-up capacitor of between 470uF and 3000uF to prevent the module from disabling due to fluctuations in output voltage. Ideally the capacitor should be connected directly to the PFC output pins. If this is not possible the connection must be less than 50mm from the pins.
+O/P
8 9
1
+
470to 3000F
Output toload
16
-O/P
<50mm
Selecting an External Output Capacitor The output capacitor value is determined by the following factors : 1. RMS ripple current. 2. Peak-to-peak output ripple voltage. 3. Hold-up time. 4. Expected lifetime of the capacitor.
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 18 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
RMS ripple current The maximum permissible rms ripple current for the output capacitor should be greater than the rms ripple current for the application. The ripple current for the PFC module can be approximated as Irms = (PO/Eff) x 1/(VO x Vrms) where : PO = output power (W) Eff = efficiency VO = output voltage (V) Vrms = input rms voltage (V) This gives the ripple current at 125KHz. The maximum ripple current for capacitors is usually specified at 120Hz. To convert from 125KHz to 120Hz the Irms figure should be divided by 1.3 . Peak to Peak Output Ripple Voltage The ac input causes a ripple on the output voltage. The size of the ripple is inversely proportional to the size of the capacitor. Therefore the maximum allowable ripple voltage should be decided in order to calculate the size of capacitor required. This may be calculated using the following equation: CO = PO / (2f x Eff x VO x Vripple) where : CO = output capacitance (F) Eff = efficiency f = input voltage frequency (Hz) VO = output voltage (V) Vripple = output ripple voltage (V) Hold-Up Time Requirement The output capacitor value is different for different hold-up time requirements. The minimum capacitance corresponding to the required hold-up time of a system comprised of ASTEC DC/DC power modules and an PFC module can be calculated as follows: CO min = (2 x PO x Thold)/[(VO-Vripple)2 - (Vmin)2] where : CO min = output capacitance (F) PO = output power (W) Thold = hold up time (sec) VO = output voltage (V) Vripple = output ripple voltage (V) Vmin = minimum input voltage for DC/DC module
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 19 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
For example: A PFC module driving 3 AIF80A300 400W modules @ 5V. Efficiency of the AIF80A300 module is 88%, the minimum input voltage is 250V, the output voltage of the PFC is 380V, the required hold-up time is 20mS and the peak-to-peak voltage Vripple is chosen to be 16V. CO min = 2 x (3 x 400/0.88) x 0.02 = 390F (470 F 20%) [(380-16)2-2502] This figure is the minimum capacitance. To allow for capacitor tolerances and aging effects the actual value should generally be around 1.5 times greater.
PF & Load Enable Connections and Timing
The PFC module must be supplied with a PF ENABLE signal to initiate the start-up sequence. The output of the LD ENABLE pin goes HIGH (ON) once the PFC has completed the start-up sequence. It is recommended that the LD ENABLE signals is always used to enable the load, however, if the load is to be enabled manually it is essential that the ton time has expired before enabling occurs.
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 20 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Connections to enable Astec DC-DC converters.
The output from the PFC's LD ENABLE (pin 13) can directly drive an opto-coupler to provide an isolated signal to enable the power output of one or more Astec DC-DC converter modules.
LoadEnableConnectionforAstecDC-DCConverters
+O/P
8 9
1 16
-O/P
AIF04ZPFC
toENABLEpinofDC-DC convertermodule to-SENSEPIN/SCOMpin ofDC-DCconvertermodule
General Connections to enable a load
For enabling loads other than Astec DC-DC converters the following circuit can be used. The LD ENABLE pin can directly drive a MOSFET with a 15V zener clamping the gate voltage.
+O/P
8
LDENABLE
1 16
-O/P
S G D
9
RESISTIVE LOAD
AIF04ZPFC
IRFP450
Conducted EMI
The PFC modules will require additional EMI filtering to enable the system to meet relevant EMI standards. PFC modules have an effective input to ground (baseplate) capacitance of 1600pF. This should be accounted for when calculating the maximum EMI `Y' capacitance to meet ground leakage current specifications. An example filter circuit is shown below.
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 21 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
L1 L
982H
L2 13mH
L3 370H
0.47F 275Vac Xcap N L1 1000pF
250Vac
0.47F 275Vac Xcap
220K 220K
1F 275Vac Xcap
0.47F 275Vac Xcap
ACINPUT
L2 1000pF 250Vac Ycap
L3 4700pF 250Vac Ycap 4700pF 250Vac Ycap
Baseplate
Ycap
E
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 22 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 23 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
APPLICATION EXAMPLE PFC module input connection example:
Baseplate
L
L1
+O/P
N
LDENABLE
SGND
L2
AIF04ZPFC
PFENABLE
EMIfilter circuit
Inrushcurrentlimit circuit
8
ACINPUT
1 16
-O/P
9
E
Model AIF04ZPFC-02L Parallel Operation
The AIF04ZPFC-02L has been specifically designed for paralleling applications where the total input current exceeds 16Arms. For stand-alone applications or those where the total input current does not exceed 16Arms the AIF04ZPFC-01L is recommended. The AIF04ZPFC-02L requires external negative rail rectifiers to be implemented at the input to the system. It is possible to operate the AIF04ZPFC-02L as a stand-alone configuration although the external negative rail rectifiers must still be provided. Current Sharing In multi-module paralleled systems, all modules will share current to within 10% of the average load current per module when the C-SHARE pins of each module are connected together.
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 24 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Interlock circuit between LD ENABLE and PF ENABLE (Continues from P.9, LD ENABLE)
Initially the load is disabled and the LD ENABLE (pin 15) is at 0.4V (LOW). When the PFC power up sequence has completed, the LD ENABLE voltage goes HIGH. And the LD ENABLE will stay high as long as Vin is above 175Vac or Vout is above 250V, even if PF_ENABLE is in disable mode. If the application needs the LD_EN goes low when the PF_EN is disable, please use the following interlock circuitry.
LD_EN goes low when PF_EN is set low (AIF04ZPFC-01L)
LD_EN goes low when PF_EN is set high (AIF04ZPFC-01NL) MODEL : AIF - PFC Series March 2006 REVISION 09 SH 25 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Synchronization
Modules are synchronized by connecting the CLK OUT pin of one module to the CLK IN of the next module in an open daisy chain configuration. If the clock input to a module fails it will automatically revert to its internal clock and continue to operate at full power.
L1
CSHARE CLKOUT
+O/P
8
85to264Vac ACINPUT
SGND
1
+
9
L2
AIF04ZPFC-02
16
-O/P
Outputto AstecDC-DC Modulesof otherloads
ExternalDiodePair*
L1
CSHARE CLKIN
+O/P
8
ACINPUT
SGND
1
+
9
L2
AIF04ZPFC-02
16
-O/P
* The current rate requirement of external rectifier for each line is 20A x number of units in parallel. For example, if there are 3 pieces of AIF04ZPFC-02L in parallel, customer will need to put 60A (20A x 3) external rectifier for each line.
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 26 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Recommend external Inrush Current Limit circuit
CIRCUIT(1):Usingrelaycontrolledfromsecondaryside:
+ V in -
R1
R2
AIF04PFC
+
DC-DC Converter
+ R3 V out -
LD_ENABLE
ENABLE
OperatingVoltageofthe coilneedstomatchwith out V
CIRCUIT(2):UsingrelaycontrolledbyAuxiliarysupplyonprimaryside:
+ + in V
R1
+
R2
AIF04ZPFC
+
V out
-
-
Aux.Supply LD_ENABLE
D1
R3 Operatingvoltageofthe coildependsontheaux supply
LEDofopto-couplerforcontrol secondarycircuit Q1 R4
InrushLimitforPFCSeries
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 27 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Brown Out Ride Through
Brown Out conditions occurs when there is a transient break in input current. During this period the external output bulk capacitor holds up the voltage to the load until input current is restored. When the input voltage is restored the PFC module will continue delivering power to the load
L1
+O/P
8
85to265Vac
1
+
ACINPUT
9
L2
APA
16
-O/P
Outputto AMPSSo Modulesor otherload
FORBROWNOUT<20ms
315VforVadjto76% (390VforVadjto100%) OUTPUTVOLTAGE 290VforVadjto76% (380VforVadjto100%) 280V 250V(Min) INPUTVOLTAGE
BROWNOUT
PFW
LOW
FORBROWNOUT>20ms
315VforVadjto76% (390VforVadjto100%) OUTPUTVOLTAGE Load Disabled 290VforVadjto76% (380VforVadjto100%) 280V Chargingof OutputCapacitor 250V(Min) INPUTVOLTAGE
BROWNOUT
PFW
LOW
LDENABLE
LOW
After a Brown Out condition where the output voltage has not dropped below 250Vdc, the module will recover when input power is restored. The PFW signal can be used to monitor input power loss.
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 28 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Thermal Data
Natural convection thermal impedance of the PFC package without a heatsink is approximately 4C/W. A standard horizontal fin heatsink available from Astec (part number APA501-80-006) with 37mm fins and 8.8mm pitch, will reduce module thermal impedance to 0.4C /W with a forced air flow of 2.5 m/s (500 LFM) when mounted with a thermal pad (ASTEC P/N APA502-80-001) between heatsink and module.
Heatsink Thermal Resistance
T hermal resistance heatsink to ambient ( C/W)
1.4 1.2 1 0.8 0.6 0.4 0.2 0 0 500
APA501-80-005 APA501-80-006
1000
1500
Air velocity (LFM)
Overtemperature Protection
If the module's internal temperature exceeds 105C (typical), the module will protect itself by latching off
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 29 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
OUTLINE DRAWING
AIF04ZPFC-xxxNTL
AIF04ZPFC-xxxL
Case thickness can meet UL-V0 flammability standard.
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 30 of 31
Technical Reference Note AIF - PFC Power Factor Correction Series
Comparison between AIF - PFC and APA100 series
AIF04ZPFC-01L Input Voltage Max Output Power 85Vac Vin 120Vac Vin 220Vac Vac under-voltage / Power interrupt Power line interrupt protection Floating PV_AUX supply V-AUX Frequency Operating temperature Remote on/off EEPROM data storage Inrush current limit circuit Parallel Application Input current External Diode Pair Full load Vo LD_ENABLE trigger point Minimum setting for PFW_ADJ Encapsulated Internal Fuse Fully SMT design QAV Control pins Power pins Mounting Kits Module colour AIF04ZPFC-02L 85 - 264Vac 1000W 1600W Fast-Recovery Meet power line disturbance immunity specification per IEC61000-4-11 Yes Fixed at 250KHz -20 - 100 Various Yes external Total Iin < 16Arms No Need No Limit Yes 380Vdc 250Vdc output 280Vdc Yes No Yes Yes 16 pins 2.06mm No Need Emerson Blue APA100-101 APA100-101M APA100-102 85 - 265Vac APA100-103 APA100-104
750W 1200W Full Recycle Not rated
550W 950W
750W 1200W
No Non-fixed Frequency -20 - 85 Negative logic only No internal external No limit Yes 377Vdc 180Vdc output 205Vdc Partial Yes (10A) No No 14 pins 1.52mm Need Black
internal
external Total Iin < 16Arms No Need
external Total Iin < 16Arms No Need
No
No
MODEL : AIF - PFC Series March 2006 REVISION 09 SH 31 of 31

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