PKJ4618GEPI [ERICSSON]
DC-DC Regulated Power Supply Module, 1 Output, 65W, Hybrid, ROHS COMPLIANT PACKAGE-9;型号: | PKJ4618GEPI |
厂家: | ERICSSON |
描述: | DC-DC Regulated Power Supply Module, 1 Output, 65W, Hybrid, ROHS COMPLIANT PACKAGE-9 输入元件 |
文件: | 总30页 (文件大小:1870K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
PKJꢀ4000EꢀPI
ꢀꢀ
DC/DCꢀconverter
Inputꢀ36-75ꢀVdcꢀ
Outputꢀupꢀtoꢀ40A/100Wꢀ
Key Features
•ꢀ IndustryꢀstandardꢀHalf-brickꢀꢀ
58x61x8.5ꢀmmꢀ(2.3x2.4x0.33ꢀin)
•ꢀ Lowꢀprofile,ꢀmaxꢀ8.5ꢀmmꢀ(0.33ꢀin)
•ꢀ Highꢀefficiency,ꢀtyp.ꢀ93ꢀ%ꢀatꢀ3.3ꢀVoutꢀ
halfꢀload
•ꢀ 1500ꢀVDCꢀinputꢀtoꢀoutputꢀisolation,ꢀ
meetsꢀisolationꢀrequirementsꢀequivalentꢀ
toꢀBasicꢀInsulationꢀaccordingꢀtoꢀ
IEC/EN/ULꢀ60950
•ꢀ Moreꢀthanꢀ6ꢀmillionꢀhoursꢀpredictedꢀ
MTBFꢀatꢀ55°ꢀCꢀambientꢀandꢀ1ꢀm/sꢀꢀ
(200ꢀlfm)ꢀairflowꢀ
SafetyꢀApprovalsꢀ
DesignꢀforꢀEnvironmentꢀ
TheꢀPKJꢀ4000EꢀseriesꢀofꢀhighꢀefficiencyꢀDC/DCꢀconvertersꢀ
areꢀdesignedꢀtoꢀprovideꢀhighꢀqualityꢀon-boardꢀpowerꢀ
solutionsꢀinꢀdistributedꢀpowerꢀarchitecturesꢀusedꢀ
inꢀInternetworkingꢀequipmentꢀinꢀwirelessꢀandꢀwiredꢀ
communicationsꢀapplications.ꢀꢀꢀ
serviceꢀnetworkꢀbyꢀspecifyingꢀtheꢀinputꢀvoltageꢀrangeꢀinꢀ
accordanceꢀwithꢀETSIꢀspecifications.ꢀꢀꢀꢀ
Includedꢀasꢀstandardꢀfeaturesꢀareꢀoutputꢀover-voltageꢀ
protection,ꢀinputꢀunder-voltageꢀprotection,ꢀoverꢀ
temperatureꢀprotection,ꢀsoft-start,ꢀoutputꢀshortꢀcircuitꢀ
protection,ꢀremoteꢀsense,ꢀremoteꢀcontrol,ꢀandꢀoutputꢀ
voltageꢀadjustꢀfunction.ꢀꢀ
TheꢀPKJꢀ4000Eꢀseriesꢀhasꢀindustryꢀstandardꢀhalfꢀbrickꢀ
footprintꢀandꢀpin-outꢀandꢀisꢀonlyꢀ8.5ꢀmmꢀ(0.33ꢀin)ꢀhigh.ꢀ
Thisꢀmakesꢀitꢀextremelyꢀwellꢀsuitedꢀforꢀnarrowꢀboardꢀpitchꢀ
applicationsꢀwithꢀboardꢀspacingꢀdownꢀtoꢀ15ꢀmmꢀ(0.6ꢀ
in).ꢀTheꢀPKJꢀ4000Eꢀseriesꢀusesꢀpatentedꢀsynchronousꢀ
rectificationꢀtechnologyꢀandꢀachievesꢀanꢀefficiencyꢀupꢀtoꢀ
89%ꢀatꢀfullꢀload.ꢀEricsson'sꢀPKJꢀ4000Eꢀseriesꢀaddressesꢀ
theꢀemergingꢀtelecomꢀmarketꢀforꢀapplicationsꢀinꢀtheꢀmulti-
Theseꢀconvertersꢀareꢀdesignedꢀtoꢀmeetꢀhighꢀreliabilityꢀ
requirementsꢀandꢀareꢀmanufacturedꢀinꢀhighlyꢀautomatedꢀ
manufacturingꢀlinesꢀandꢀmeetꢀworld-classꢀqualityꢀlevels.ꢀ
EricssonꢀPowerꢀModulesꢀisꢀanꢀISOꢀ9001/14001ꢀcertifiedꢀ
supplier.
Datasheet
E
Absolute Maximum Ratings
Safety
TheꢀPKJꢀ4000ꢀEꢀseriesꢀDC/DCꢀ
Characteristics
minꢀ
max
+125
+125
+80
1500
100
75
Unit
˚C
convertersꢀareꢀdesignedꢀinꢀaccordanceꢀ
withꢀsafetyꢀstandardsꢀIEC/EN/ULꢀ60ꢀ
950,ꢀSafety of Information Technology
Equipment.ꢀTheꢀPKJꢀ4000ꢀEꢀseriesꢀ
DC/DCꢀconvertersꢀareꢀULꢀ60ꢀ950ꢀꢀ
recognizedꢀꢀandꢀcertifiedꢀinꢀaccordanceꢀ
withꢀENꢀ60ꢀ950.
T
T
MaximumꢀOperatingꢀPcbꢀTemperature
Storageꢀtemperature
-40ꢀ
Pcb
-55ꢀ
˚C
S
V
V
V
V
V
V
Inputꢀvoltage
-0.5ꢀ
Vdc
Vdc
Vdc
Vdc
Vdc
Vdc
I
Isolationꢀvoltageꢀ(inputꢀtoꢀoutputꢀtestꢀvoltage)
Inputꢀvoltageꢀtransientꢀforꢀ100ꢀms
Negativeꢀlogicꢀ
ꢀ
ISO
tr
TheꢀDC/DCꢀconverterꢀshouldꢀbeꢀ
ꢀ
installedꢀinꢀtheꢀend-useꢀequipment,ꢀ
inꢀaccordanceꢀwithꢀtheꢀrequirementsꢀ
ofꢀtheꢀultimateꢀapplication.ꢀTheꢀinputꢀ
sourceꢀmustꢀbeꢀisolatedꢀbyꢀminimumꢀ
Basicꢀinsulationꢀfromꢀtheꢀprimaryꢀcircuitꢀ
inꢀaccordanceꢀwithꢀIEC/EN/ULꢀ60ꢀ
950.ꢀIfꢀtheꢀinputꢀvoltageꢀtoꢀtheꢀDC/DCꢀ
converterꢀisꢀ75ꢀVꢀdcꢀorꢀless,ꢀthenꢀtheꢀ
outputꢀremainsꢀSELVꢀ(SafetyꢀExtraꢀLowꢀ
Voltage)ꢀunderꢀnormalꢀandꢀabnormalꢀ
operatingꢀconditions.ꢀSingleꢀfaultꢀtestingꢀ
inꢀtheꢀinputꢀpowerꢀsupplyꢀcircuitꢀshouldꢀ
beꢀperformedꢀwithꢀtheꢀDC/DCꢀconverterꢀ
connectedꢀtoꢀdemonstrateꢀthatꢀtheꢀ
inputꢀvoltageꢀdoesꢀnotꢀexceedꢀ75ꢀVꢀdc.ꢀ
Ifꢀtheꢀinputꢀpowerꢀsourceꢀcircuitꢀisꢀaꢀ
DCꢀpowerꢀsystem,ꢀtheꢀsourceꢀmayꢀbeꢀ
treatedꢀasꢀaꢀTNV2ꢀcircuitꢀandꢀtestingꢀ
hasꢀdemonstratedꢀcomplianceꢀwithꢀ
SELVꢀlimitsꢀandꢀisolationꢀrequirementsꢀ
equivalentꢀtoꢀBasicꢀinsulationꢀinꢀ
accordanceꢀwithꢀIEC/EN/ULꢀ60ꢀ950.ꢀ
Itꢀisꢀrecommendedꢀthatꢀaꢀfastꢀblowꢀfuseꢀ
withꢀaꢀratingꢀofꢀ10Aꢀbeꢀusedꢀatꢀtheꢀinputꢀ
ofꢀeachꢀDC/DCꢀconverter.ꢀTheꢀPKJꢀse-
riesꢀDC/DCꢀconvertersꢀareꢀapprovedꢀforꢀ
aꢀmaximumꢀfuseꢀratingꢀofꢀ15A.ꢀIfꢀaꢀfaultꢀ
occursꢀinꢀtheꢀconverterꢀthatꢀimposesꢀ
aꢀshortꢀcircuitꢀonꢀtheꢀinputꢀsource,ꢀthisꢀ
fuseꢀwillꢀprovideꢀtheꢀfollowingꢀfunctions:ꢀ
ꢀ
RC
RC
adj
Positiveꢀlogic
ꢀ
6
Maximumꢀinput
-0.5ꢀ
2xVoi
Note:
StressꢀinꢀexcessꢀofꢀAbsoluteꢀMaximumꢀRatingsꢀmayꢀcauseꢀpermanentꢀdamage.ꢀAbsoluteꢀMaximumꢀRatings,ꢀsometimesꢀreferredꢀtoꢀasꢀ
noꢀdestructionꢀlimits,ꢀareꢀnormallyꢀtestedꢀwithꢀoneꢀparameterꢀatꢀaꢀtimeꢀexceedingꢀtheꢀlimitsꢀofꢀOutputꢀdataꢀorꢀElectricalꢀCharacteristics.ꢀIfꢀ
exposedꢀtoꢀstressꢀaboveꢀtheseꢀlimits,ꢀfunctionꢀandꢀperformanceꢀmayꢀdegradeꢀinꢀanꢀunspecifiedꢀmanner.
ꢀ
Input TPcbꢀ<TPcbꢀmaxꢀunlessꢀotherwiseꢀspecified
Characteristics
Conditions
minꢀ
36ꢀ
typꢀ
ꢀ
max
75
Unit
Vdc
V
Inputꢀvoltageꢀrange
I
Rampingꢀfromꢀhigherꢀ
voltage
V
V
Turn-offꢀinputꢀvoltageꢀꢀꢀꢀꢀꢀꢀꢀꢀ
Turn-onꢀinputꢀvoltage
ꢀ
ꢀ
32ꢀ
34ꢀ
Vdc
Ioff
Rampingꢀfromꢀlowerꢀ
voltage
Vdc
µF
Ion
C
I
Inputꢀcapacitance
ꢀ
ꢀ
ꢀ
2
I
Reflectedꢀrippleꢀcurrent
Inputꢀidlingꢀpower
5ꢀHzꢀtoꢀ20ꢀMHz
I =ꢀ0,ꢀV ꢀ=ꢀ53ꢀV
TBD
2ꢀ
mA
W
p-p
Iac
P
II
o
I
Inputꢀstandbyꢀpowerꢀ
(turnedꢀoffꢀwithꢀRC)
P
V ꢀ=ꢀ53ꢀV,ꢀRCꢀactivated
ꢀ
0.25ꢀ
W
RC
I
Environmental Characteristics
Characteristics
Frequencyꢀ
Spectralꢀdensity
Duration
10ꢀ...ꢀ500ꢀHzꢀ
0.07ꢀg /Hz
10ꢀminꢀeachꢀdirection
2
•ꢀ ꢀIsolateꢀtheꢀfaultyꢀDC/DCꢀconverterꢀ
fromꢀtheꢀinputꢀpowerꢀsourceꢀnotꢀtoꢀ
affectꢀtheꢀoperationꢀofꢀotherꢀpartsꢀofꢀ
theꢀsystem.
RandomꢀVibration IECꢀ68-2-34E
d
Frequencyꢀ
Amplitudeꢀ
Accelerationꢀ
Numberꢀofꢀcycles
10ꢀ...ꢀ500ꢀHzꢀ
0.75ꢀmmꢀ
10ꢀgꢀ
Sinusoidalꢀ
Vibration
IECꢀ68-2-6ꢀF
c
•ꢀ ꢀProtectꢀtheꢀdistributionꢀwiringꢀfromꢀ
excessiveꢀcurrentꢀandꢀpowerꢀlossꢀ
thusꢀpreventingꢀhazardousꢀoverhea-
ting.
10ꢀinꢀeachꢀaxis
Shockꢀ
(halfꢀsinus)
Peakꢀaccelerationꢀ
Duration
100ꢀg
6ꢀms
IECꢀ68-2-27ꢀE
a
Temperatureꢀ
change
Temperatureꢀ
-40 ... +100 ˚C
IECꢀ68-2-14ꢀN
a
Numberꢀofꢀcycles
300
Theꢀ galvanicꢀ isolationꢀ isꢀ verifiedꢀ inꢀ anꢀ
electricꢀstrengthꢀtest.ꢀꢀTheꢀtestꢀvoltageꢀ
(VISO)ꢀbetweenꢀinputꢀandꢀoutputꢀisꢀ1500ꢀ
Vdcꢀforꢀ60ꢀseconds.ꢀꢀLeakageꢀcurrentꢀisꢀ
lessꢀthanꢀ1uAꢀatꢀnominalꢀinputꢀvoltage.
Temperatureꢀ
Humidity
Duration
+85 ˚C
85ꢀ%ꢀRH
1000ꢀhours
IECꢀ68-2-3ꢀC ꢀ
a
Heat/Humidity
Solderꢀheatꢀ
stability
Temperature,ꢀsolder
Duration
260 ˚C
10ꢀ...13ꢀs
IECꢀ68-2-20ꢀ 1A
ꢀ
Water
Isopropylꢀalcohol
Glycolꢀether
+55 ±5 ˚C
+35 ±5 ˚C
+35 ±5 ˚C
Resistanceꢀtoꢀ
cleaningꢀsolvents
IECꢀ68-2-45ꢀXAꢀ
Methodꢀ2
Theꢀflammabilityꢀratingꢀforꢀallꢀ
constructionꢀpartsꢀofꢀtheꢀDC/DCꢀ
converterꢀmeetsꢀULꢀ94V-0.ꢀ
Temperature
Duration
-45 ˚Cꢀ
2ꢀh
Coldꢀ(inꢀoperation) IECꢀ68-2-1ꢀAd
Storageꢀtest IECꢀ68-2-2ꢀBa
Temperature
Duration
+125 ˚C
1000ꢀh
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
ꢀ
Connections
Mechanical Data
Pin
1
Designation
Function
Mounting holes
Ø3.00 [.12](4x)
Bottom view
-ꢀIn
NegativeꢀInput
2
Noꢀpin
5
1
3
RC
RemoteꢀControl
PositiveꢀInput
6
7
8
2
4
+ꢀIn
5
-ꢀOut
-ꢀSen
Vadj
NegativeꢀOutput
NegativeꢀRemoteꢀSense
Outputꢀvoltageꢀadjust
PositiveꢀRemoteꢀSense
PositiveꢀOutput
3
6
7
4
9
8
+ꢀSen
+ꢀOut
9
ForꢀmoreꢀinformationꢀaboutꢀtheꢀfunctionsꢀseeꢀOperatingꢀInformation
4.80 [.19]
53.10 [2.09]
57.90 [2.28]
Fundamental Circuit Diagram
Dimensions in mm [in.]
Primary
Secondary
Choke
4
Resistor
Capacitor
Comp.
9
5
Control
3
1.83 [.07]
1.02 [.04]
3.17 [.13]
2.03 [.08]
X = 3.60 [.14] or 5.30 [.21] depending on choice of pin length
Control
1
Recommended Footprint (Component side)
Isolated
Feedback
7
8
6
Ø2.43 [.096](2x)
Ø1.42 [.056](7x)
Weight
PKJꢀ4810EꢀPIꢀ35ꢀgꢀ
Pins
Material:ꢀBrassꢀAlloyꢀ
Plating:ꢀ0.1ꢀµmꢀGoldꢀoverꢀNickel
4.80 [.19]
53.10 [2.09]
57.90 [2.28]
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PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
3
Output
Unit
V
PKJ ꢁ618HE PI Output
TPcbꢀ=ꢀ–30…+90°C,ꢀVIꢀ=ꢀ36ꢀ...75V,ꢀsenseꢀpinsꢀconnectedꢀtoꢀoutputꢀpinsꢀunlessꢀotherwiseꢀspecified.
Characteristics
Conditions
min
typ
max
Outputꢀvoltageꢀinitialꢀsettingꢀ
T
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
Pcbꢀ
1.485
1.50
1.515
I
O
Omax
andꢀaccuracyꢀ
V
Oi
Outputꢀadjustꢀrange
I
I
I
I
ꢀ=ꢀI
1.35
1.65
1.535
1.535
5
V
O
O
O
O
Omaxꢀ
Outputꢀvoltageꢀtoleranceꢀband
Idlingꢀvoltage
ꢀ=ꢀ0.1...1ꢀxꢀI
1.465
1.465
V
Omaxꢀ
ꢀ=ꢀ0
V
V
V
O
tr
Lineꢀregulation
ꢀ=ꢀI
mV
mV
Omax
Loadꢀregulation
V ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.01...1ꢀxꢀI
5
I
O
Omax
Loadꢀtransientꢀ
voltageꢀdeviation
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀV
O
Omaxꢀ,ꢀ I
±150
100
mV
µs
Loadꢀstepꢀ=ꢀ0.5ꢀxꢀI
ꢀꢀdi/dtꢀ=ꢀ1A/µs
Omax
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀꢀ
O
Omaxꢀ,ꢀ I
t
Loadꢀtransientꢀrecoveryꢀtime
tr
loadstepꢀ=ꢀ0.5xꢀI
Omax
t
t
Ramp-upꢀtime
I
ꢀ=ꢀ0.1...0.9ꢀxꢀV
O
15
20
30
40
40
ms
ms
A
r
O
Start-upꢀtime
FromꢀV connectedꢀtoꢀV =ꢀ0.9ꢀxꢀV
Iꢀ Oꢀ OI
s
I
Outputꢀcurrent
0
O
P
I
Maxꢀoutputꢀpower
Currentꢀlimitꢀthreshold
Shortꢀcircuitꢀcurrent
Outputꢀrippleꢀ&ꢀnoise
Supplyꢀvoltageꢀrejectionꢀ(ac)
Overꢀvoltageꢀprotection
AtꢀV =ꢀV ꢀ
Onom
60
W
A
Omax
Oꢀ
T
T
< T
46
Pcbꢀ
Pcbꢀ
Pcbmax
ꢀ
lim
I
= 25ꢀ°C
ꢀ
50
A
sc
V
Seeꢀrippleꢀandꢀnoise,ꢀI ꢀ=ꢀI
Omax
150
65
200ꢀꢀꢀꢀ
2.2
mV
dB
V
p-p
Oac
O
SVR
OVP
fꢀ=ꢀ100ꢀHzꢀsinewaveꢀ,ꢀ1ꢀVp-pꢀ,ꢀV ꢀ=ꢀ53ꢀV
Iꢀ
V ꢀ=ꢀ53ꢀV
I
1.7
Miscellaneous
Characteristics
Conditions
min
typ
88.5
85
max
Unit
%
η
η
η
η
P
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
PowerꢀDissipation
T
T
T
T
T
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
I O
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀI
Omax
%
I
O
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
88.5
85
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
83
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
11
W
d
I
O
Omax
f
I
Switchingꢀfrequency
Maximumꢀinputꢀcurrent
I
ꢀ=ꢀ0ꢀ...ꢀ1.0ꢀxꢀI
140
2.2
kHz
A
s
O
Omax
1.1ꢀxꢀVOiꢀxꢀIOmaxꢀ/ꢀη /ꢀV
Imin
Imax
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
ꢁ
PKJ ꢁ618HE PI Typical Characteristics
Efficiency
Output Current Derating
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Vin=53ꢀV.ꢀDC/DCꢀconverterꢀmountedꢀverticallyꢀwithꢀairflowꢀandꢀ
testꢀconditionsꢀasꢀperꢀtheꢀThermalꢀconsiderationꢀsection.
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Thermalꢀresistanceꢀvs.ꢀairspeedꢀmeasuredꢀatꢀtheꢀconverter.ꢀ
Testedꢀinꢀwindtunnelꢀwithꢀairflowꢀandꢀtestꢀconditionsꢀasꢀperꢀ
theꢀThermalꢀconsiderationꢀsection.
Dissipatedꢀpowerꢀvs.ꢀloadꢀcurrentꢀandꢀinputꢀvoltageꢀatꢀꢀ
TPcb=+25ꢀ°C
Output Characteristic
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Outputꢀvoltageꢀvs.ꢀloadꢀcurrentꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀꢀꢀ
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
5
Radj=ꢀ[1.5(100+Δ%)ꢀ/
1.225Δ%-ꢀ(100+2Δ%)ꢀ/Δ%]ꢀkOhm
PKJ ꢁ618HE PI Typical Characteristics
Start-Up
Turn-Off
Start-upꢀatꢀIo=40AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀStartꢀenabledꢀbyꢀconnectingꢀVin.ꢀTopꢀtrace:ꢀ
inputꢀvoltageꢀ(10ꢀV/div.).ꢀBottomꢀtrace:ꢀoutputꢀvoltageꢀ
(0.50ꢀV/div.).ꢀTimeꢀscale:ꢀ10ꢀms/div.
Turn-offꢀatꢀIo=10AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀTurn-offꢀenabledꢀbyꢀdisconnectingꢀVin.ꢀ
Outputꢀvoltageꢀ(0.50ꢀV/div.).ꢀTimeꢀscale:ꢀ50ꢀms/div.
Output Ripple
Transient
Outputꢀvoltageꢀresponseꢀtoꢀloadꢀcurrentꢀstep-changeꢀ
(10-30-10ꢀA)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀTopꢀtrace:ꢀ
outputꢀvoltageꢀ(200mV/div.).ꢀBottomꢀtrace:ꢀꢀ
Outputꢀvoltageꢀrippleꢀ(100mV/div.)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV,ꢀꢀ
Io=40AꢀresistiveꢀloadꢀwithꢀC=10ꢀµFꢀtantalumꢀandꢀ0.1ꢀµFꢀꢀ
ceramicꢀcapacitors.ꢀBandꢀwidth=20MHz.ꢀTimeꢀscale:ꢀ2µsꢀ/ꢀdiv.
loadꢀcurrentꢀ(10ꢀA/div.)ꢀTimeꢀscale:ꢀ0.1ꢀms/div.
Output Voltage Adjust
Output Voltage Adjust
ꢀ
Theꢀresistorꢀvalueꢀforꢀanꢀadjustedꢀoutputꢀvoltageꢀisꢀ
[kOhm]
calculatedꢀbyꢀusingꢀtheꢀfollowingꢀequations:ꢀ
100000
OutputꢀVoltageꢀAdjustꢀUpwards,ꢀIncrease:ꢀ
10000
1000
100
10
OutputꢀVoltageꢀAdjustꢀDownwards,ꢀDecrease:ꢀ
Radj=ꢀ[(100ꢀ/ꢀΔ%-2)]ꢀkOhm
Decrease
Increase
EgꢀIncreaseꢀ4%ꢀ=>Voutꢀ=ꢀ1.56ꢀVdc
1.5ꢀ(100+4)/1.225x4-100+2x4/4=4.84ꢀkOhm
1
EgꢀDecreaseꢀ2%ꢀ=>Voutꢀ=ꢀ1.47ꢀVdc
100/2-2=48.0ꢀkOhm
[% ]
10
0
2
4
6
8
Outputꢀvoltageꢀadjustꢀresistorꢀvalueꢀvs.ꢀꢀ
percentageꢀchangeꢀinꢀoutputꢀvoltage.
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
6
Output
Unit
V
PKJ ꢁ618GE PI Output
TPcbꢀ=ꢀ–30…+90°C,ꢀVIꢀ=ꢀ36ꢀ...75V,ꢀsenseꢀpinsꢀconnectedꢀtoꢀoutputꢀpinsꢀunlessꢀotherwiseꢀspecified.
Characteristics
Conditions
min
typ
max
Outputꢀvoltageꢀinitialꢀsettingꢀ
T
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
Pcbꢀ
1.782
1.80
1.818
I
O
Omax
andꢀaccuracyꢀ
V
Oi
Outputꢀadjustꢀrange
I
I
I
I
ꢀ=ꢀI
1.62
1.98
1.842
1.842
5
V
O
O
O
O
Omaxꢀ
Outputꢀvoltageꢀtoleranceꢀband
Idlingꢀvoltage
ꢀ=ꢀ0.1...1ꢀxꢀI
1.758
1.758
V
Omaxꢀ
ꢀ=ꢀ0
V
V
V
O
tr
Lineꢀregulation
ꢀ=ꢀI
mV
mV
Omax
Loadꢀregulation
V ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.01...1ꢀxꢀI
5
I
O
Omax
Loadꢀtransientꢀ
voltageꢀdeviation
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀV
O
Omaxꢀ,ꢀ I
±150
100
mV
µs
Loadꢀstepꢀ=ꢀ0.5ꢀxꢀI
ꢀꢀdi/dtꢀ=ꢀ1A/µs
Omax
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀꢀ
O
Omaxꢀ,ꢀ I
t
Loadꢀtransientꢀrecoveryꢀtime
tr
loadstepꢀ=ꢀ0.5xꢀI
Omax
t
t
Ramp-upꢀtime
I
ꢀ=ꢀ0.1...0.9ꢀxꢀV
O
15
20
30
40
36
ms
ms
A
r
O
Start-upꢀtime
FromꢀV connectedꢀtoꢀV =ꢀ0.9ꢀxꢀV
Iꢀ Oꢀ OI
s
I
Outputꢀcurrent
0
O
P
I
Maxꢀoutputꢀpower
Currentꢀlimitꢀthreshold
Shortꢀcircuitꢀcurrent
Outputꢀrippleꢀ&ꢀnoise
Supplyꢀvoltageꢀrejectionꢀ(ac)
Overꢀvoltageꢀprotection
AtꢀV =ꢀV ꢀ
Onom
65
W
A
Omax
Oꢀ
T
T
< T
43
Pcbꢀ
Pcbꢀ
Pcbmax
ꢀ
lim
I
= 25ꢀ°C
ꢀ
47
A
sc
V
Seeꢀrippleꢀandꢀnoise,ꢀI ꢀ=ꢀI
Omax
150
65
200ꢀꢀꢀꢀ
3.0
mV
dB
V
p-p
Oac
O
SVR
OVP
fꢀ=ꢀ100ꢀHzꢀsinewaveꢀ,ꢀ1ꢀVp-pꢀ,ꢀV ꢀ=ꢀ53ꢀV
Iꢀ
V ꢀ=ꢀ53ꢀV
I
2.0
Miscellaneous
Characteristics
Conditions
min
typ
90.5
87.5
90
max
Unit
%
η
η
η
η
P
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
PowerꢀDissipation
T
T
T
T
T
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
I O
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀI
Omax
%
I
O
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
85.5
87.5
9
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
W
d
I
O
Omax
f
I
Switchingꢀfrequency
Maximumꢀinputꢀcurrent
I
ꢀ=ꢀ0ꢀ...ꢀ1.0ꢀxꢀI
140
2.3
kHz
A
s
O
Omax
1.1ꢀxꢀVOiꢀxꢀIOmaxꢀ/ꢀη /ꢀV
Imin
Imax
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
7
PKJ ꢁ618GE PI Typical Characteristics
Efficiency
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Vin=53ꢀV.ꢀDC/DCꢀconverterꢀmountedꢀverticallyꢀwithꢀairflowꢀandꢀ
testꢀconditionsꢀasꢀperꢀtheꢀThermalꢀconsiderationꢀsection.
Efficiencyꢀvs.ꢀloadꢀcurrentꢀandꢀinputꢀvoltageꢀatꢀTPcb=+25ꢀ°C
Power Dissipation
Thermal Resistance
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Thermalꢀresistanceꢀvs.ꢀairspeedꢀmeasuredꢀatꢀtheꢀconverter.ꢀ
Testedꢀinꢀwindtunnelꢀwithꢀairflowꢀandꢀtestꢀconditionsꢀasꢀperꢀ
theꢀThermalꢀconsiderationꢀsection.
Dissipatedꢀpowerꢀvs.ꢀloadꢀcurrentꢀandꢀinputꢀvoltageꢀatꢀꢀ
TPcb=+25ꢀ°C
Output Characteristic
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Outputꢀvoltageꢀvs.ꢀloadꢀcurrentꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀꢀꢀ
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
8
Radj=ꢀ[1.8(100+Δ%)ꢀ/
1.225Δ%-ꢀ(100+2Δ%)ꢀ/Δ%]ꢀkOhm
PKJ ꢁ618GE PI Typical Characteristics
Start-Up
Turn-Off
Start-upꢀatꢀIo=36AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀStartꢀenabledꢀbyꢀconnectingꢀVin.ꢀTopꢀtrace:ꢀ
inputꢀvoltageꢀ(10ꢀV/div.).ꢀBottomꢀtrace:ꢀoutputꢀvoltageꢀ
(0.50ꢀV/div.).ꢀTimeꢀscale:ꢀ10ꢀms/div.
Turn-offꢀatꢀIo=10AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀTurn-offꢀenabledꢀbyꢀdisconnectingꢀVin.ꢀ
Outputꢀvoltageꢀ(0.50ꢀV/div.).ꢀTimeꢀscale:ꢀ50ꢀms/div.
Output Ripple
Transient
Outputꢀvoltageꢀresponseꢀtoꢀloadꢀcurrentꢀstep-changeꢀ
(9-27-9ꢀA)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀTopꢀtrace:ꢀoutputꢀ
voltageꢀ(200mV/div.).ꢀBottomꢀtrace:ꢀꢀ
Outputꢀvoltageꢀrippleꢀ(100mV/div.)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV,ꢀꢀ
Io=36AꢀresistiveꢀloadꢀwithꢀC=10ꢀµFꢀtantalumꢀandꢀ0.1ꢀµFꢀꢀ
ceramicꢀcapacitors.ꢀBandꢀwidth=20MHz.ꢀTimeꢀscale:ꢀ2µsꢀ/ꢀdiv.
loadꢀcurrentꢀ(10ꢀA/div.)ꢀTimeꢀscale:ꢀ0.1ꢀms/div.
Output Voltage Adjust
Output Voltage Adjust
ꢀ
Theꢀresistorꢀvalueꢀforꢀanꢀadjustedꢀoutputꢀvoltageꢀisꢀ
[kOhm]
ꢅꢁꢀ
calculatedꢀbyꢀusingꢀtheꢀfollowingꢀequations:ꢀ
OutputꢀVoltageꢀAdjustꢀUpwards,ꢀIncrease:ꢀ
ꢅꢀꢀ
ꢄꢀ
ꢃꢀ
ꢂꢀ
ꢁꢀ
ꢀ
ꢀ
OutputꢀVoltageꢀAdjustꢀDownwards,ꢀDecrease:ꢀ
Radj=ꢀ[(100ꢀ/Δ%-2)]ꢀkOhm
Decrease
Increase
EgꢀIncreaseꢀ4%ꢀ=>Voutꢀ=ꢀ1.87ꢀVdc
1.8ꢀ(100+4)/1.225x4-100+2x4/4=11.2ꢀkOhm
EgꢀDecreaseꢀ2%ꢀ=>Voutꢀ=ꢀ1.76ꢀVdc
100/2-2=48.0ꢀkOhm
ꢀ
ꢁ
ꢃ
ꢄ
ꢅꢀ [% ]
ꢂ
Outputꢀvoltageꢀadjustꢀresistorꢀvalueꢀvs.ꢀꢀ
percentageꢀchangeꢀinꢀoutputꢀvoltage.
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
9
Output
Unit
V
PKJ ꢁ719E PI Output
TPcbꢀ=ꢀ–30…+90°C,ꢀVIꢀ=ꢀ36ꢀ...75V,ꢀsenseꢀpinsꢀconnectedꢀtoꢀoutputꢀpinsꢀunlessꢀotherwiseꢀspecified.
Characteristics
Conditions
min
typ
max
Outputꢀvoltageꢀinitialꢀsettingꢀ
T =ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
Pcbꢀ
2.475
2.50
2.525
I
O
Omax
andꢀaccuracyꢀ
V
Oi
Outputꢀadjustꢀrange
I
I
I
I
ꢀ=ꢀI
2.00
2.44
2.44
2.75
2.56
2.56
5
V
O
O
O
O
Omaxꢀ
Outputꢀvoltageꢀtoleranceꢀband
Idlingꢀvoltage
ꢀ=ꢀ0.1...1ꢀxꢀI
V
Omaxꢀ
ꢀ=ꢀ0
V
V
V
O
tr
Lineꢀregulation
ꢀ=ꢀI
mV
mV
Omax
Loadꢀregulation
V ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.01...1ꢀxꢀI
5
I
O
Omax
Loadꢀtransientꢀ
voltageꢀdeviation
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀV
O
Omaxꢀ,ꢀ I
±200
100
mV
µs
Loadꢀstepꢀ=ꢀ0.5ꢀxꢀI
ꢀꢀdi/dtꢀ=ꢀ1A/µs
Omax
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀꢀ
O
Omaxꢀ,ꢀ I
t
Loadꢀtransientꢀrecoveryꢀtime
tr
loadstepꢀ=ꢀ0.5xꢀI
Omax
t
t
Ramp-upꢀtime
I
ꢀ=ꢀ0.1...0.9ꢀxꢀV
15
20
30
40
30
ms
ms
A
r
O
O
Start-upꢀtime
FromꢀV connectedꢀtoꢀV =ꢀ0.9ꢀxꢀV
Iꢀ Oꢀ OI
s
I
Outputꢀcurrent
0
O
P
I
Maxꢀoutputꢀpower
Currentꢀlimitꢀthreshold
Shortꢀcircuitꢀcurrent
Outputꢀrippleꢀ&ꢀnoise
Supplyꢀvoltageꢀrejectionꢀ(ac)
Overꢀvoltageꢀprotection
AtꢀV =ꢀV ꢀ
Onom
75
W
A
Omax
Oꢀ
T
< T
32
Pcbꢀ
Pcbꢀ
Pcbmax
ꢀ
lim
I
T
= 25ꢀ°C
ꢀ
40
A
sc
V
Seeꢀrippleꢀandꢀnoise,ꢀI ꢀ=ꢀI
Omax
150
70
200ꢀꢀꢀꢀ
4.0
mV
dB
V
p-p
Oac
O
SVR
OVP
fꢀ=ꢀ100ꢀHzꢀsinewaveꢀ,ꢀ1ꢀVp-pꢀ,ꢀV ꢀ=ꢀ53ꢀV
Iꢀ
V ꢀ=ꢀ53ꢀV
I
3.0
Miscellaneous
Characteristics
Conditions
min
typ
90.5
87
max
Unit
%
η
η
η
η
P
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
PowerꢀDissipation
T
T
T
T
T
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
I O
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀI
Omax
%
I
O
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
90
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
85.5
86.5
12
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
W
d
I
O
Omax
f
I
Switchingꢀfrequency
Maximumꢀinputꢀcurrent
I
ꢀ=ꢀ0ꢀ...ꢀ1.0ꢀxꢀI
140
2.6
kHz
A
s
O
Omax
1.1ꢀxꢀVOiꢀxꢀIOmaxꢀ/ꢀη /ꢀV
Imin
Imax
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
10
PKJ ꢁ719E PI Typical Characteristics
Efficiency
Output Current Derating
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Testedꢀinꢀwindtunnelꢀwithꢀairflowꢀandꢀtestꢀconditionsꢀasꢀperꢀ
theꢀThermalꢀconsiderationꢀsection.
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Outputꢀvoltageꢀvs.ꢀloadꢀcurrentꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀꢀꢀ
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
11
Radj=ꢀ[2.5(100+Δ%)ꢀ/
1.225Δ%-ꢀ(100+2Δ%)ꢀ/Δ%]ꢀkOhm
PKJ ꢁ719E PI Typical Characteristics
Start-Up
Turn-Off
Start-upꢀatꢀIo=30AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀStartꢀenabledꢀbyꢀconnectingꢀVin.ꢀTopꢀtrace:ꢀ
inputꢀvoltageꢀ(10ꢀV/div.).ꢀBottomꢀtrace:ꢀoutputꢀvoltageꢀ
(1ꢀV/div.).ꢀTimeꢀscale:ꢀ5ꢀms/div.
Turn-offꢀatꢀIo=30AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀTurn-offꢀenabledꢀbyꢀdisconnectingꢀVin.ꢀTopꢀ
trace:ꢀoutputꢀvoltageꢀ(1ꢀV/div.).ꢀBottomꢀtrace:ꢀinputꢀ
voltageꢀ(20ꢀV/div.).ꢀTimeꢀscale:ꢀ10ꢀms/div.
Output Ripple
Transient
Outputꢀvoltageꢀresponseꢀtoꢀloadꢀcurrentꢀstep-changeꢀ
(7.5-22.5-7.5ꢀA)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀTopꢀtrace:ꢀ
outputꢀvoltageꢀ(200mV/div.).ꢀBottomꢀtrace:ꢀꢀ
Outputꢀvoltageꢀrippleꢀ(100mV/div.)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV,ꢀꢀ
Io=30AꢀresistiveꢀloadꢀwithꢀC=10ꢀµFꢀtantalumꢀandꢀ0.1ꢀµFꢀꢀ
ceramicꢀcapacitors.ꢀBandꢀwidth=20MHz.ꢀTimeꢀscale:ꢀ2µsꢀ/ꢀdiv.
loadꢀcurrentꢀ(5ꢀA/div.)ꢀTimeꢀscale:ꢀ0.1ꢀms/div.
Output Voltage Adjust
Output Voltage Adjust
ꢀ
[kOhm]
100000
Theꢀresistorꢀvalueꢀforꢀanꢀadjustedꢀoutputꢀvoltageꢀisꢀ
calculatedꢀbyꢀusingꢀtheꢀfollowingꢀequations:ꢀ
10000
1000
100
10
OutputꢀVoltageꢀAdjustꢀUpwards,ꢀIncrease:ꢀ
OutputꢀVoltageꢀAdjustꢀDownwards,ꢀDecrease:ꢀ
Radj=ꢀ[(100ꢀ/ꢀΔ%-2)]ꢀkOhm
Decrease
Increase
EgꢀIncreaseꢀ4%ꢀ=>Voutꢀ=ꢀ2.600ꢀVdc
2.5ꢀ(100+4)/1.225x4-100+2x4/4=26.06ꢀkOhm
1
EgꢀDecreaseꢀ2%ꢀ=>Voutꢀ=ꢀ2.450ꢀVdc
100/2-2=48.0ꢀkOhm
[%]
0
2
4
6
8
10 12 14 16 18 20 22
Outputꢀvoltageꢀadjustꢀresistorꢀvalueꢀvs.ꢀꢀ
percentageꢀchangeꢀinꢀoutputꢀvoltage.
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
1ꢀ
Output
Unit
V
PKJ ꢁ810E PI Output
TPcbꢀ=ꢀ–30…+90°C,ꢀVIꢀ=ꢀ36ꢀ...75V,ꢀsenseꢀpinsꢀconnectedꢀtoꢀoutputꢀpinsꢀunlessꢀotherwiseꢀspecified.
Characteristics
Conditions
min
3.26
typ
max
3.34
Outputꢀvoltageꢀinitialꢀsettingꢀ
T =ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
Pcbꢀ
3.30
I
O
Omax
andꢀaccuracyꢀ
V
Oi
Outputꢀadjustꢀrange
I
I
I
I
ꢀ=ꢀI
2.64
3.24
3.24
3.63
3.36
3.36
5
V
O
O
O
O
Omaxꢀ
Outputꢀvoltageꢀtoleranceꢀband
Idlingꢀvoltage
ꢀ=ꢀ0.1...1ꢀxꢀI
V
Omaxꢀ
ꢀ=ꢀ0
V
V
V
O
tr
Lineꢀregulation
ꢀ=ꢀI
mV
mV
Omax
Loadꢀregulation
V ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.01...1ꢀxꢀI
5
I
O
Omax
Loadꢀtransientꢀ
voltageꢀdeviation
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀV
O
Omaxꢀ,ꢀ I
±300
100
mV
µs
Loadꢀstepꢀ=ꢀ0.5ꢀxꢀI
ꢀꢀdi/dtꢀ=ꢀ1A/µs
Omax
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀꢀ
O
Omaxꢀ,ꢀ I
t
Loadꢀtransientꢀrecoveryꢀtime
tr
loadstepꢀ=ꢀ0.5xꢀI
Omax
t
t
Ramp-upꢀtime
I
ꢀ=ꢀ0.1...0.9ꢀxꢀV
15
20
30
40
25
ms
ms
A
r
O
O
Start-upꢀtime
FromꢀV connectedꢀtoꢀV =ꢀ0.9ꢀxꢀV
Iꢀ Oꢀ OI
s
I
Outputꢀcurrent
0
O
P
I
Maxꢀoutputꢀpower
Currentꢀlimitꢀthreshold
Shortꢀcircuitꢀcurrent
Outputꢀrippleꢀ&ꢀnoise
Supplyꢀvoltageꢀrejectionꢀ(ac)
Overꢀvoltageꢀprotection
AtꢀV =ꢀV ꢀ
Onom
82.5
W
A
Omax
Oꢀ
T
< T
29
Pcbꢀ
Pcbꢀ
Pcbmax
ꢀ
lim
I
T
= 25ꢀ°C
ꢀ
33
A
sc
V
Seeꢀrippleꢀandꢀnoise,ꢀI ꢀ=ꢀI
Omax
120
80
150
5.0
mV
dB
V
p-p
Oac
O
SVR
OVP
fꢀ=ꢀ100ꢀHzꢀsinewaveꢀ,ꢀ1ꢀVp-pꢀ,ꢀV ꢀ=ꢀ53ꢀV
Iꢀ
V ꢀ=ꢀ53ꢀV
I
3.9
4.4
Miscellaneous
Characteristics
Conditions
min
typ
TBD
TBD
93
max
Unit
%
η
η
η
η
P
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
PowerꢀDissipation
T
T
T
T
T
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
I O
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀI
Omax
%
I
O
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
87
89
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
10
W
d
I
O
Omax
f
I
Switchingꢀfrequency
Maximumꢀinputꢀcurrent
I
ꢀ=ꢀ0ꢀ...ꢀ1.0ꢀxꢀI
140
2.8
kHz
A
s
O
Omax
1.1ꢀxꢀVOiꢀxꢀIOmaxꢀ/ꢀη /ꢀV
Imin
Imax
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
13
PKJ ꢁ810E PI Typical Characteristics
Efficiency
Output Current Derating
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atꢀVin=53ꢀV.ꢀDC/DCꢀconverterꢀmountedꢀverticallyꢀwithꢀairflowꢀ
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Power Dissipation
Thermal Resistance
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Thermalꢀresistanceꢀvs.ꢀairspeedꢀmeasuredꢀatꢀtheꢀconverter.ꢀ
Testedꢀinꢀwindtunnelꢀwithꢀairflowꢀandꢀtestꢀconditionsꢀasꢀperꢀ
theꢀThermalꢀconsiderationꢀsection.
Dissipatedꢀpowerꢀvs.ꢀloadꢀcurrentꢀandꢀinputꢀvoltageꢀatꢀꢀ
TPcb=+25ꢀ°C
Output Characteristic
[V]
3.5
3.4
3.3
3.2
3.1
0
5
10
15
20
25 [A]
Outputꢀvoltageꢀvs.ꢀloadꢀcurrentꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀꢀꢀ
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
1ꢁ
Radj=ꢀ[3.3(100+Δ%)ꢀ/
1.225Δ%-ꢀ(100+2Δ%)ꢀ/Δ%]ꢀkOhm
PKJ ꢁ810E PI Typical Characteristics
Start-Up
Turn-Off
Turn-offꢀatꢀIo=25AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀTurn-offꢀenabledꢀbyꢀdisconnectingꢀVin.ꢀTopꢀ
trace:ꢀoutputꢀvoltageꢀ(1ꢀV/div.).ꢀBottomꢀtrace:ꢀinputꢀ
voltageꢀ(20ꢀV/div.).ꢀTimeꢀscale:ꢀ10ꢀms/div.
Start-upꢀatꢀIo=25AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀStartꢀenabledꢀbyꢀconnectingꢀVin.ꢀTopꢀtrace:ꢀ
inputꢀvoltageꢀ(10ꢀV/div.).ꢀBottomꢀtrace:ꢀoutputꢀvoltageꢀ
(1ꢀV/div.).ꢀTimeꢀscale:ꢀ5ꢀms/div.
Transient
Output Ripple
Outputꢀvoltageꢀresponseꢀtoꢀloadꢀcurrentꢀstep-changeꢀ
(6.25-18.75-6.25ꢀA)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀTopꢀ
trace:ꢀoutputꢀvoltageꢀ(200mV/div.).ꢀBottomꢀtrace:ꢀꢀ
loadꢀcurrentꢀ(5ꢀA/div.)ꢀTimeꢀscale:ꢀ0.1ꢀms/div.
Outputꢀvoltageꢀrippleꢀ(100mV/div.)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV,ꢀꢀ
Io=25AꢀresistiveꢀloadꢀwithꢀC=10ꢀµFꢀtantalumꢀandꢀ0.1ꢀµFꢀꢀ
ceramicꢀcapacitors.ꢀBandꢀwidth=20MHz.ꢀTimeꢀscale:ꢀ2µsꢀ/ꢀdiv.
Output Voltage Adjust
Output Voltage Adjust
ꢀ
[kOhm]
100000
Theꢀresistorꢀvalueꢀforꢀanꢀadjustedꢀoutputꢀvoltageꢀisꢀ
calculatedꢀbyꢀusingꢀtheꢀfollowingꢀequations:ꢀ
10000
1000
100
10
OutputꢀVoltageꢀAdjustꢀUpwards,ꢀIncrease:ꢀ
OutputꢀVoltageꢀAdjustꢀDownwards,ꢀDecrease:ꢀ
Radj=ꢀ[(100ꢀ/ꢀΔ%-2)]ꢀkOhm
Decrease
Increase
EgꢀIncreaseꢀ4%ꢀ=>Voutꢀ=ꢀ3.432ꢀVdc
3.3ꢀ(100+4)/1.225x4-100+2x4/4=43.04ꢀkOhm
1
[%]
0
2
4
6
8
10 12 14 16 18 20 22
EgꢀDecreaseꢀ2%ꢀ=>Voutꢀ=ꢀ3.234ꢀVdc
100/2-2=48.00ꢀkOhm
Outputꢀvoltageꢀadjustꢀresistorꢀvalueꢀvs.ꢀꢀ
percentageꢀchangeꢀinꢀoutputꢀvoltage.
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
15
Output
Unit
V
PKJ ꢁ111E PI Output
TPcbꢀ=ꢀ–30…+90°C,ꢀVIꢀ=ꢀ36ꢀ...75V,ꢀsenseꢀpinsꢀconnectedꢀtoꢀoutputꢀpinsꢀunlessꢀotherwiseꢀspecified.
Characteristics
Conditions
min
4.96
typ
max
5.04
Outputꢀvoltageꢀinitialꢀsettingꢀ
T =ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
Pcbꢀ
5.00
I
O
Omax
andꢀaccuracyꢀ
V
Oi
Outputꢀadjustꢀrange
I
I
I
I
ꢀ=ꢀI
4.00
4.94
4.94
5.50
5.06
5.06
5
V
O
O
O
O
Omaxꢀ
Outputꢀvoltageꢀtoleranceꢀband
Idlingꢀvoltage
ꢀ=ꢀ0.1...1ꢀxꢀI
V
Omaxꢀ
ꢀ=ꢀ0
V
V
V
O
tr
Lineꢀregulation
ꢀ=ꢀI
mV
mV
Omax
Loadꢀregulation
V ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.01...1ꢀxꢀI
5
I
O
Omax
Loadꢀtransientꢀ
voltageꢀdeviation
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀV
O
Omaxꢀ,ꢀ I
±300
100
mV
µs
Loadꢀstepꢀ=ꢀ0.5ꢀxꢀI
ꢀꢀdi/dtꢀ=ꢀ1A/µs
Omax
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀꢀ
O
Omaxꢀ,ꢀ I
t
Loadꢀtransientꢀrecoveryꢀtime
tr
loadstepꢀ=ꢀ0.5xꢀI
Omax
t
t
Ramp-upꢀtime
I
ꢀ=ꢀ0.1...0.9ꢀxꢀV
15
20
30
40
20
ms
ms
A
r
O
O
Start-upꢀtime
FromꢀV connectedꢀtoꢀV =ꢀ0.9ꢀxꢀV
Iꢀ Oꢀ OI
s
I
Outputꢀcurrent
0
O
P
I
Maxꢀoutputꢀpower
Currentꢀlimitꢀthreshold
Shortꢀcircuitꢀcurrent
Outputꢀrippleꢀ&ꢀnoise
Supplyꢀvoltageꢀrejectionꢀ(ac)
Overꢀvoltageꢀprotection
AtꢀV =ꢀV ꢀ
Onom
100
W
A
Omax
Oꢀ
T
< T
23
Pcbꢀ
Pcbꢀ
Pcbmax
ꢀ
lim
I
T
= 25ꢀ°C
ꢀ
27
A
sc
V
Seeꢀrippleꢀandꢀnoise,ꢀI ꢀ=ꢀI
Omax
110
70
150
7.5
mV
dB
V
p-p
Oac
O
SVR
OVP
fꢀ=ꢀ100ꢀHzꢀsinewaveꢀ,ꢀ1ꢀVp-pꢀ,ꢀV ꢀ=ꢀ53ꢀV
Iꢀ
V ꢀ=ꢀ53ꢀV
I
6.0
Miscellaneous
Characteristics
Conditions
min
typ
92.5
90
max
Unit
%
η
η
η
η
P
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
PowerꢀDissipation
T
T
T
T
T
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
I O
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀI
Omax
%
I
O
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
92
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
87
89
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
12
W
d
I
O
Omax
f
I
Switchingꢀfrequency
Maximumꢀinputꢀcurrent
I
ꢀ=ꢀ0ꢀ...ꢀ1.0ꢀxꢀI
140
3.4
kHz
A
s
O
Omax
1.1ꢀxꢀVOiꢀxꢀIOmaxꢀ/ꢀη /ꢀV
Imin
Imax
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
16
PKJ ꢁ111E PI Typical Characteristics
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Output Current Derating
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andꢀtestꢀconditionsꢀasꢀperꢀtheꢀThermalꢀconsiderationꢀsection.
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theꢀThermalꢀconsiderationꢀsection.
Dissipatedꢀpowerꢀvs.ꢀloadꢀcurrentꢀandꢀinputꢀvoltageꢀatꢀꢀ
TPcb=+25ꢀ°C
Output Characteristic
[V]
5.2
5.1
5.0
4.9
4.8
0
5
10
15
20
[A]
Outputꢀvoltageꢀvs.ꢀloadꢀcurrentꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀꢀꢀ
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
17
Radj=ꢀ[5.0(100+Δ%)ꢀ/
1.225Δ%-ꢀ(100+2Δ%)ꢀ/Δ%]ꢀkOhm
PKJ ꢀ111E PI Typical Characteristics
Start-Up
Turn-Off
Turn-offꢀatꢀIo=25AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀTurn-offꢀenabledꢀbyꢀdisconnectingꢀVin.ꢀTopꢀ
trace:ꢀoutputꢀvoltageꢀ(2ꢀV/div.).ꢀBottomꢀtrace:ꢀinputꢀ
voltageꢀ(20ꢀV/div.).ꢀTimeꢀscale:ꢀ10ꢀms/div.
Start-upꢀatꢀIo=20AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀStartꢀenabledꢀbyꢀconnectingꢀVin.ꢀTopꢀtrace:ꢀ
inputꢀvoltageꢀ(10ꢀV/div.).ꢀBottomꢀtrace:ꢀoutputꢀvoltageꢀ
(1ꢀV/div.).ꢀTimeꢀscale:ꢀ5ꢀms/div.
Transient
Output Ripple
Outputꢀvoltageꢀresponseꢀtoꢀloadꢀcurrentꢀstep-changeꢀ
(5.0-15-5.0ꢀA)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀTopꢀtrace:ꢀ
outputꢀvoltageꢀ(200mV/div.).ꢀBottomꢀtrace:ꢀꢀ
Outputꢀvoltageꢀrippleꢀ(100mV/div.)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV,ꢀꢀ
Io=20AꢀresistiveꢀloadꢀwithꢀC=10ꢀµFꢀtantalumꢀandꢀ0.1ꢀµFꢀꢀ
ceramicꢀcapacitors.ꢀBandꢀwidth=20MHz.ꢀTimeꢀscale:ꢀ2µsꢀ/ꢀdiv.
loadꢀcurrentꢀ(5ꢀA/div.)ꢀTimeꢀscale:ꢀ0.1ꢀms/div.
Output Voltage Adjust
Output Voltage Adjust
ꢀ
[kOhm]
100000
Theꢀresistorꢀvalueꢀforꢀanꢀadjustedꢀoutputꢀvoltageꢀisꢀ
calculatedꢀbyꢀusingꢀtheꢀfollowingꢀequations:ꢀ
10000
1000
100
10
OutputꢀVoltageꢀAdjustꢀUpwards,ꢀIncrease:ꢀ
OutputꢀVoltageꢀAdjustꢀDownwards,ꢀDecrease:ꢀ
Radj=ꢀ[(100ꢀ/ꢀΔ%-2)]ꢀkOhm
Decrease
Increase
EgꢀIncreaseꢀ4%ꢀ=>Voutꢀ=ꢀ5.200ꢀVdc
5.0ꢀ(100+4)/1.225x4-100+2x4/4=79.12ꢀkOhm
1
EgꢀDecreaseꢀ2%ꢀ=>Voutꢀ=ꢀ4.900ꢀVdc
100/2-2=48.00ꢀkOhm
[%]
0
2
4
6
8
10 12 14 16 18 20 22
Outputꢀvoltageꢀadjustꢀresistorꢀvalueꢀvs.ꢀꢀ
percentageꢀchangeꢀinꢀoutputꢀvoltage.
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
18
Output
Unit
V
PKJ ꢀ113E PI Output
TPcbꢀ=ꢀ–30…+90°C,ꢀVIꢀ=ꢀ36ꢀ...75V,ꢀsenseꢀpinsꢀconnectedꢀtoꢀoutputꢀpinsꢀunlessꢀotherwiseꢀspecified.
Characteristics
Conditions
min
typ
max
Outputꢀvoltageꢀinitialꢀsettingꢀ
T =ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
Pcbꢀ
11.88
12.0
12.12
I
O
Omax
andꢀaccuracyꢀ
V
Oi
Outputꢀadjustꢀrange
I
I
I
I
ꢀ=ꢀI
9.60
13.20
12.18
12.18
10
V
O
O
O
O
Omaxꢀ
Outputꢀvoltageꢀtoleranceꢀband
Idlingꢀvoltage
ꢀ=ꢀ0.1...1ꢀxꢀI
11.82
11.82
V
Omaxꢀ
ꢀ=ꢀ0
V
V
V
O
tr
Lineꢀregulation
ꢀ=ꢀI
mV
mV
Omax
Loadꢀregulation
V ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.01...1ꢀxꢀI
10
I
O
Omax
Loadꢀtransientꢀ
voltageꢀdeviation
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀV
O
Omaxꢀ,ꢀ I
±400
100
mV
µs
Loadꢀstepꢀ=ꢀ0.5ꢀxꢀI
ꢀꢀdi/dtꢀ=ꢀ1A/µs
Omax
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀꢀ
O
Omaxꢀ,ꢀ I
t
Loadꢀtransientꢀrecoveryꢀtime
tr
loadstepꢀ=ꢀ0.5xꢀI
Omax
t
t
Ramp-upꢀtime
I
ꢀ=ꢀ0.1...0.9ꢀxꢀV
15
20
30
ms
ms
A
r
O
O
Start-upꢀtime
FromꢀV connectedꢀtoꢀV =ꢀ0.9ꢀxꢀV
OI
40
s
Iꢀ
Oꢀ
I
Outputꢀcurrent
0
8.33
O
P
Maxꢀoutputꢀpower
Currentꢀlimitꢀthreshold
Shortꢀcircuitꢀcurrent
Outputꢀrippleꢀ&ꢀnoise
Supplyꢀvoltageꢀrejectionꢀ(ac)
Overꢀvoltageꢀprotection
AtꢀV =ꢀV ꢀ
Onom
100
W
A
Omax
Oꢀ
I
T
< T
9.5
11.5
100
60
Pcbꢀ
Pcbꢀ
Pcbmax
ꢀ
lim
I
T
= 25ꢀ°C
ꢀ
A
sc
V
Seeꢀrippleꢀandꢀnoise,ꢀI ꢀ=ꢀI
Omax
150
18
mV
dB
V
p-p
Oac
O
SVR
OVP
fꢀ=ꢀ100ꢀHzꢀsinewaveꢀ,ꢀ1ꢀVp-pꢀ,ꢀV ꢀ=ꢀ53ꢀV
Iꢀ
V ꢀ=ꢀ53ꢀV
I
16
Miscellaneous
Characteristics
Conditions
min
typ
TBD
TBD
92.5
90
max
Unit
%
η
η
η
η
P
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
PowerꢀDissipation
T
Pcbꢀ
T
Pcbꢀ
T
Pcbꢀ
T
Pcbꢀ
T
Pcbꢀ
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
I O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀI
Omax
%
I
O
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
88
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
11.2
220
3.4
W
d
I
O
Omax
f
I
Switchingꢀfrequency
Maximumꢀinputꢀcurrent
I
ꢀ=ꢀ0ꢀ...ꢀ1.0ꢀxꢀI
kHz
A
s
O
Omax
1.1ꢀxꢀVOiꢀxꢀIOmaxꢀ/ꢀη /ꢀV
Imin
Imax
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
19
PKJ ꢀ113E PI Typical Characteristics
Efficiency
Output Current Derating
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48 V
53 V
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75 V
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70
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Availableꢀloadꢀcurrentꢀvs.ꢀambientꢀairꢀtemperatureꢀandꢀairflowꢀ
atꢀVin=53ꢀV.ꢀDC/DCꢀconverterꢀmountedꢀverticallyꢀwithꢀairflowꢀ
andꢀtestꢀconditionsꢀasꢀperꢀtheꢀThermalꢀconsiderationꢀsection.
Efficiencyꢀvs.ꢀloadꢀcurrentꢀandꢀinputꢀvoltageꢀatꢀTpcb=+25ꢀ°C
Thermal Resistance
Power Dissipation
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Thermalꢀresistanceꢀvs.ꢀairspeedꢀmeasuredꢀatꢀtheꢀconverter.ꢀ
Testedꢀinꢀwindtunnelꢀwithꢀairflowꢀandꢀtestꢀconditionsꢀasꢀperꢀ
theꢀThermalꢀconsiderationꢀsection.
Dissipatedꢀpowerꢀvs.ꢀloadꢀcurrentꢀandꢀinputꢀvoltageꢀatꢀꢀ
TPcb=+25ꢀ°C
Output Characteristic
[V]
12.2
12.1
12.0
11.9
11.8
[A]
0
1
2
3
4
5
6
7
8
9
Outputꢀvoltageꢀvs.ꢀloadꢀcurrentꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀꢀꢀ
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
ꢁ0
Radj=ꢀ[12(100+Δ%)ꢀ/
1.225Δ%-ꢀ(100+2Δ%)ꢀ/Δ%]ꢀkOhm
PKJ ꢀ113E PI Typical Characteristics
Start-Up
Turn-Off
Turn-offꢀatꢀIo=8.33AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀTurn-offꢀenabledꢀbyꢀdisconnectingꢀVin.ꢀTopꢀ
trace:ꢀoutputꢀvoltageꢀ(5ꢀV/div.).ꢀBottomꢀtrace:ꢀinputꢀ
voltageꢀ(20ꢀV/div.).ꢀTimeꢀscale:ꢀ10ꢀms/div.
Start-upꢀatꢀIo=8.33AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀStartꢀenabledꢀbyꢀconnectingꢀVin.ꢀTopꢀtrace:ꢀ
inputꢀvoltageꢀ(10ꢀV/div.).ꢀBottomꢀtrace:ꢀoutputꢀvoltageꢀ
(5ꢀV/div.).ꢀTimeꢀscale:ꢀ5ꢀms/div.
Transient
Output Ripple
Outputꢀvoltageꢀresponseꢀtoꢀloadꢀcurrentꢀstep-changeꢀ
(2.0-6.2-2.0ꢀA)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀTopꢀtrace:ꢀ
outputꢀvoltageꢀ(200mV/div.).ꢀBottomꢀtrace:ꢀꢀ
Outputꢀvoltageꢀrippleꢀ(100mV/div.)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV,ꢀꢀ
Io=8.33AꢀresistiveꢀloadꢀwithꢀC=10ꢀµFꢀtantalumꢀandꢀ0.1ꢀµFꢀꢀ
ceramicꢀcapacitors.ꢀBandꢀwidth=20MHz.ꢀTimeꢀscale:ꢀ1µsꢀ/ꢀdiv.
loadꢀcurrentꢀ(2ꢀA/div.)ꢀTimeꢀscale:ꢀ0.1ꢀms/div.
Output Voltage Adjust
Output Voltage Adjust
ꢀ
[kOhm]
100000
Theꢀresistorꢀvalueꢀforꢀanꢀadjustedꢀoutputꢀvoltageꢀisꢀcal-
culatedꢀbyꢀusingꢀtheꢀfollowingꢀequations:ꢀ
10000
1000
100
10
OutputꢀVoltageꢀAdjustꢀUpwards,ꢀIncrease:ꢀ
OutputꢀVoltageꢀAdjustꢀDownwards,ꢀDecrease:ꢀ
Radj=ꢀ[(100ꢀ/ꢀΔ%-2)]ꢀkOhm
Decrease
Increase
EgꢀIncreaseꢀ4%ꢀ=>Voutꢀ=ꢀ12.48ꢀVdc
12ꢀ(100+4)/1.225x4-100+2x4/4=228ꢀkOhm
1
[%]
0
2
4
6
8
10 12 14 16 18 20 22
EgꢀDecreaseꢀ2%ꢀ=>Voutꢀ=ꢀ11.76ꢀVdc
100/2-2=48.00ꢀkOhm
Outputꢀvoltageꢀadjustꢀresistorꢀvalueꢀvs.ꢀꢀ
percentageꢀchangeꢀinꢀoutputꢀvoltage.
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
21
Output
Unit
V
PKJ ꢀ115E PI Output
TPcbꢀ=ꢀ–30…+90°C,ꢀVIꢀ=ꢀ36ꢀ...75V,ꢀsenseꢀpinsꢀconnectedꢀtoꢀoutputꢀpinsꢀunlessꢀotherwiseꢀspecified.
Characteristics
Conditions
min
typ
max
Outputꢀvoltageꢀinitialꢀsettingꢀ
T =ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
Pcbꢀ
14.85
15.0
15.15
I
O
Omax
andꢀaccuracyꢀ
V
Oi
Outputꢀadjustꢀrange
I
I
I
I
ꢀ=ꢀI
12.0
16.5
15.23
15.23
10
V
O
O
O
O
Omaxꢀ
Outputꢀvoltageꢀtoleranceꢀband
Idlingꢀvoltage
ꢀ=ꢀ0.1...1ꢀxꢀI
14.77
14.77
V
Omaxꢀ
ꢀ=ꢀ0
V
V
V
O
tr
Lineꢀregulation
ꢀ=ꢀI
mV
mV
Omax
Loadꢀregulation
V ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.01...1ꢀxꢀI
10
I
O
Omax
Loadꢀtransientꢀ
voltageꢀdeviation
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀV
O
Omaxꢀ,ꢀ I
±350
100
mV
µs
Loadꢀstepꢀ=ꢀ0.5ꢀxꢀI
ꢀꢀdi/dtꢀ=ꢀ1A/µs
Omax
I
ꢀ=ꢀ0.1...1ꢀxꢀI
V ꢀ=ꢀ53ꢀꢀ
O
Omaxꢀ,ꢀ I
t
Loadꢀtransientꢀrecoveryꢀtime
tr
loadstepꢀ=ꢀ0.5xꢀI
Omax
t
t
Ramp-upꢀtime
I
ꢀ=ꢀ0.1...0.9ꢀxꢀV
15
20
30
ms
ms
A
r
O
O
Start-upꢀtime
FromꢀV connectedꢀtoꢀV =ꢀ0.9ꢀxꢀV
OI
40
s
Iꢀ
Oꢀ
I
Outputꢀcurrent
0
6.67
O
P
I
Maxꢀoutputꢀpower
Currentꢀlimitꢀthreshold
Shortꢀcircuitꢀcurrent
Outputꢀrippleꢀ&ꢀnoise
Supplyꢀvoltageꢀrejectionꢀ(ac)
Overꢀvoltageꢀprotection
AtꢀV =ꢀV ꢀ
Onom
100
W
A
Omax
Oꢀ
T
< T
7.5
10.5
110
65
Pcbꢀ
Pcbꢀ
Pcbmax
ꢀ
lim
I
T
= 25ꢀ°C
ꢀ
A
sc
V
Seeꢀrippleꢀandꢀnoise,ꢀI ꢀ=ꢀI
Omax
150
23
mV
dB
V
p-p
Oac
O
SVR
OVP
fꢀ=ꢀ100ꢀHzꢀsinewaveꢀ,ꢀ1ꢀVp-pꢀ,ꢀV ꢀ=ꢀ53ꢀV
Iꢀ
V ꢀ=ꢀ53ꢀV
I
21
Miscellaneous
Characteristics
Conditions
min
typ
91.0
91.6
90.2
91.2
9.5
max
Unit
%
η
η
η
η
P
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
Efficiencyꢀ-ꢀ50%ꢀload
Efficiencyꢀ-ꢀ100%ꢀload
PowerꢀDissipation
T
T
T
T
T
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
I O
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Pcbꢀ
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ48ꢀV,ꢀI ꢀ=ꢀI
Omax
%
I
O
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀ0.5ꢀxꢀI
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
89
%
I
O
Omax
=ꢀ+25ꢀ°C,ꢀV ꢀ=ꢀ53ꢀV,ꢀI ꢀ=ꢀI
W
d
I
O
Omax
f
I
Switchingꢀfrequency
Maximumꢀinputꢀcurrent
I
ꢀ=ꢀ0ꢀ...ꢀ1.0ꢀxꢀI
220
3.3
kHz
A
s
O
Omax
1.1ꢀxꢀVOiꢀxꢀIOmaxꢀ/ꢀη /ꢀV
Imin
Imax
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
ꢁꢁ
PKJ ꢀ115E PI Typical Characteristics
Efficiency
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Efficiencyꢀvs.ꢀloadꢀcurrentꢀandꢀinputꢀvoltageꢀatꢀTpcb=+25ꢀ°C
Availableꢀloadꢀcurrentꢀvs.ꢀambientꢀairꢀtemperatureꢀandꢀairflowꢀatꢀ
Vin=53ꢀV.ꢀDC/DCꢀconverterꢀmountedꢀverticallyꢀwithꢀairflowꢀandꢀ
testꢀconditionsꢀasꢀperꢀtheꢀThermalꢀconsiderationꢀsection.
Power Dissipation
Thermal Resistance
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Thermalꢀresistanceꢀvs.ꢀairspeedꢀmeasuredꢀatꢀtheꢀconverter.ꢀ
Testedꢀinꢀwindtunnelꢀwithꢀairflowꢀandꢀtestꢀconditionsꢀasꢀperꢀ
theꢀThermalꢀconsiderationꢀsection.
Dissipatedꢀpowerꢀvs.ꢀloadꢀcurrentꢀandꢀinputꢀvoltageꢀatꢀꢀ
TPcb=+25ꢀ°C
Output Characteristic
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Outputꢀvoltageꢀvs.ꢀloadꢀcurrentꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀꢀꢀ
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
23
Radj=ꢀ[15(100+Δ%)ꢀ/
1.225Δ%-ꢀ(100+2Δ%)ꢀ/Δ%]ꢀkOhm
PKJ ꢀ115E PI Typical Characteristics
Start-Up
Turn-Off
Turn-offꢀatꢀIo=6.67AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀTurn-offꢀenabledꢀbyꢀdisconnectingꢀVin.ꢀTopꢀ
trace:ꢀoutputꢀvoltageꢀ(5ꢀV/div.).ꢀBottomꢀtrace:ꢀinputꢀ
voltageꢀ(20ꢀV/div.).ꢀTimeꢀscale:ꢀ10ꢀms/div.
Start-upꢀatꢀIo=6.67AꢀresistiveꢀloadꢀatꢀTPcb=+25ꢀ°C,ꢀ
Vin=53ꢀV.ꢀStartꢀenabledꢀbyꢀconnectingꢀVin.ꢀTopꢀtrace:ꢀ
inputꢀvoltageꢀ(10ꢀV/div.).ꢀBottomꢀtrace:ꢀoutputꢀvoltageꢀ
(5ꢀV/div.).ꢀTimeꢀscale:ꢀ5ꢀms/div.
Transient
Output Ripple
Outputꢀvoltageꢀresponseꢀtoꢀloadꢀcurrentꢀstep-changeꢀ
(1.7-5.0-1.7ꢀA)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV.ꢀTopꢀtrace:ꢀ
outputꢀvoltageꢀ(200mV/div.).ꢀBottomꢀtrace:ꢀꢀ
Outputꢀvoltageꢀrippleꢀ(50mV/div.)ꢀatꢀTPcb=+25ꢀ°C,ꢀVin=53ꢀV,ꢀꢀ
Io=6.67AꢀresistiveꢀloadꢀwithꢀC=10ꢀµFꢀtantalumꢀandꢀ0.1ꢀµFꢀꢀ
ceramicꢀcapacitors.ꢀBandꢀwidth=20MHz.ꢀTimeꢀscale:ꢀ1µsꢀ/ꢀdiv.
loadꢀcurrentꢀ(2ꢀA/div.)ꢀTimeꢀscale:ꢀ0.1ꢀms/div.
Output Voltage Adjust
Output Voltage Adjust
ꢀ
[kOhm]
100000
Theꢀresistorꢀvalueꢀforꢀanꢀadjustedꢀoutputꢀvoltageꢀisꢀ
calculatedꢀbyꢀusingꢀtheꢀfollowingꢀequations:ꢀ
10000
1000
100
10
OutputꢀVoltageꢀAdjustꢀUpwards,ꢀIncrease:ꢀ
OutputꢀVoltageꢀAdjustꢀDownwards,ꢀDecrease:ꢀ
Radj=ꢀ[(100ꢀ/ꢀΔ%-2)]ꢀkOhm
Decrease
Increase
EgꢀIncreaseꢀ4%ꢀ=>Voutꢀ=ꢀ15.60ꢀVdc
15ꢀ(100+4)/1.225x4-100+2x4/4=291ꢀkOhm
1
[%]
0
2
4
6
8
10 12 14 16 18 20 22
EgꢀDecreaseꢀ2%ꢀ=>Voutꢀ=ꢀ14.70ꢀVdc
100/2-2=48.00ꢀkOhm
Outputꢀvoltageꢀadjustꢀresistorꢀvalueꢀvs.ꢀꢀ
percentageꢀchangeꢀinꢀoutputꢀvoltage.
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
ꢁꢀ
EMC Specification
TheꢀconductedꢀEMIꢀmeasurementꢀwasꢀperformedꢀusingꢀaꢀ
moduleꢀplacedꢀdirectlyꢀonꢀtheꢀtestꢀbench.
Theꢀfundamentalꢀswitchingꢀfrequencyꢀisꢀ140kHzꢀforꢀPKJꢀ
Printed Circuit Board
Power Module
5µH 50Ω
50 ohm temination
+
out
in
LISN
rcvr
max
4810EꢀPIꢀ@ꢀVIꢀ=ꢀ53V,ꢀIOꢀ=ꢀ(0.1...1.0)ꢀ×ꢀIO .ꢀꢀ
DC
Power
Source
Filter
(if used)
Conducted EMI Inputꢀterminalꢀvalueꢀ(typ)
5µH 50Ω
LISN
-
out
in
1 m Twisted Pair
rcvr
Resistive
Load
Optional Connection
to Earth Ground
50 ohm input
EMC
Reciver
Computer
Test set-up.
Layout Recommendation
TheꢀradiatedꢀEMIꢀperformanceꢀofꢀtheꢀDC/DCꢀconverterꢀwillꢀ
beꢀoptimisedꢀbyꢀincludingꢀaꢀgroundꢀplaneꢀinꢀtheꢀPCBꢀareaꢀ
underꢀtheꢀDC/DCꢀconverter.ꢀThisꢀapproachꢀwillꢀreturnꢀswitch-
ingꢀnoiseꢀtoꢀgroundꢀasꢀdirectlyꢀasꢀpossible,ꢀwithꢀimprove-
mentsꢀtoꢀbothꢀemissionsꢀandꢀsusceptibility.ꢀIfꢀoneꢀgroundꢀ
traceꢀisꢀused,ꢀitꢀshouldꢀbeꢀconnectedꢀtoꢀtheꢀinputꢀreturn.ꢀ
Alternatively,ꢀtwoꢀgroundꢀtracesꢀmayꢀbeꢀused,ꢀwithꢀtheꢀtraceꢀ
underꢀtheꢀinputꢀsideꢀofꢀtheꢀDC/DCꢀconverterꢀconnectedꢀtoꢀ
theꢀinputꢀreturnꢀandꢀtheꢀtraceꢀunderꢀtheꢀoutputꢀsideꢀofꢀtheꢀ
DC/DCꢀconverterꢀconnectedꢀtoꢀtheꢀoutputꢀreturn.ꢀMakeꢀsureꢀ
toꢀuseꢀappropriateꢀsafetyꢀisolationꢀspacingꢀbetweenꢀtheseꢀ
twoꢀreturnꢀtraces.ꢀTheꢀuseꢀofꢀtwoꢀtracesꢀasꢀdescribedꢀwillꢀ
provideꢀtheꢀcapabilityꢀofꢀroutingꢀtheꢀinputꢀnoiseꢀandꢀoutputꢀ
noiseꢀbackꢀtoꢀtheirꢀrespectiveꢀreturns.
PKJ 4810E PI without filter.
External filterꢀ(classꢀB)
RequiredꢀexternalꢀinputꢀfilterꢀinꢀorderꢀtoꢀmeetꢀclassꢀBꢀinꢀꢀ
ENꢀ55022,ꢀCISPRꢀ22ꢀandꢀFCCꢀpartꢀ15J.
C5
C1
C2
C3
C6
C7
C4
C1,2,6: 0.68uF
C3,7: 47uF
Output ripple and noise
C4,5: 3.9nF
Theꢀcircuitꢀbelowꢀhasꢀbeenꢀusedꢀforꢀtheꢀrippleꢀandꢀnoiseꢀ
measurementsꢀonꢀtheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconverters.
L1: Common mode inductor
on 768 uH (Pulse PO 422)
L2: DC choke: 15uH
Theꢀcapacitorsꢀareꢀceramicꢀtype.ꢀLowꢀESRꢀisꢀcriticalꢀforꢀꢀ
achieveingꢀtheseꢀresults.
Ceramic
Capacitor
Tantalum
Capacitor
+Vout
+Sense
+
Trim
0.1uF
10uF
Load
-Sense
-Vout
BNC
Connector
to Scope
* Conductor from Vout to capacitors = 50mm [1.97in]
Outputꢀrippleꢀandꢀnoiseꢀtestꢀsetup
PKJ 4810E PI with filter.
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
25
Operating Information
Remote Sense
Input Voltage
Theꢀinputꢀvoltageꢀrangeꢀ36…75Vdcꢀmeetsꢀtheꢀrequirementsꢀ
ofꢀtheꢀEuropeanꢀTelecomꢀStandardꢀETSꢀ300ꢀ132-2ꢀforꢀ
normalꢀinputꢀvoltageꢀrangeꢀinꢀ–48Vꢀandꢀ–60VꢀDCꢀsystems,ꢀ
-40.5…-57.0Vꢀandꢀ–50.0…-72Vꢀrespectively.ꢀAtꢀinputꢀ
voltagesꢀexceedingꢀ75V,ꢀtheꢀpowerꢀlossꢀwillꢀbeꢀhigherꢀthanꢀ
atꢀnormalꢀinputꢀvoltageꢀandꢀTPcbꢀmustꢀbeꢀlimitedꢀtoꢀabsoluteꢀ
maxꢀ+125°C.ꢀTheꢀabsoluteꢀmaximumꢀcontinuousꢀinputꢀ
voltageꢀisꢀ80Vdc.ꢀ
AllꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀhaveꢀremoteꢀsenseꢀ
thatꢀcanꢀbeꢀusedꢀtoꢀcompensateꢀforꢀmoderateꢀamountsꢀofꢀre-
sistanceꢀinꢀtheꢀdistributionꢀsystemꢀandꢀallowꢀforꢀvoltageꢀreg-
ulationꢀatꢀtheꢀloadꢀorꢀotherꢀselectedꢀpoint.ꢀTheꢀremoteꢀsenseꢀ
linesꢀwillꢀcarryꢀveryꢀlittleꢀcurrentꢀandꢀdoꢀnotꢀneedꢀaꢀlargeꢀ
crossꢀsectionalꢀarea.ꢀHowever,ꢀtheꢀsenseꢀlinesꢀonꢀtheꢀPCBꢀ
shouldꢀbeꢀlocatedꢀcloseꢀtoꢀaꢀgroundꢀtraceꢀorꢀgroundꢀplane.ꢀ
Inꢀaꢀdiscreteꢀwiringꢀsituation,ꢀtheꢀuseꢀofꢀtwistedꢀpairꢀwiresꢀ
orꢀotherꢀtechniqueꢀtoꢀreduceꢀnoiseꢀsusceptibilityꢀisꢀhighlyꢀ
recommended.ꢀTheꢀremoteꢀsenseꢀcircuitryꢀwillꢀcompensateꢀ
forꢀupꢀtoꢀ10%ꢀvoltageꢀdropꢀbetweenꢀtheꢀsenseꢀvoltageꢀandꢀ
theꢀvoltageꢀatꢀtheꢀoutputꢀpins.ꢀTheꢀoutputꢀvoltageꢀandꢀtheꢀ
remoteꢀsenseꢀvoltageꢀoffsetꢀmustꢀbeꢀlessꢀthanꢀtheꢀminimumꢀ
overꢀvoltageꢀtripꢀpoint.ꢀIfꢀtheꢀremoteꢀsenseꢀisꢀnotꢀneededꢀtheꢀ
–Senseꢀshouldꢀbeꢀconnectedꢀtoꢀ–Outꢀandꢀ+Senseꢀshouldꢀbeꢀ
connectedꢀtoꢀ+Out.
Turn-Off Input Voltage
TheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀmonitorꢀtheꢀinputꢀ
voltageꢀandꢀwillꢀturnꢀonꢀandꢀturnꢀoffꢀatꢀpredeterminedꢀlevels.ꢀ
Theꢀminimumꢀhysteresisꢀbetweenꢀturnꢀonꢀandꢀturnꢀoffꢀinputꢀ
voltageꢀisꢀ1Vꢀwhereꢀtheꢀturnꢀonꢀinputꢀvoltageꢀisꢀtheꢀhighest.
Remote Control (RC)
Output Voltage Adjust (Vadj
)
TheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀ
convertersꢀhaveꢀaꢀremoteꢀcontrolꢀ
functionꢀreferencedꢀtoꢀtheꢀprimaryꢀ
sideꢀ(-ꢀIn),ꢀwithꢀnegativeꢀandꢀpositiveꢀ
logicꢀoptionsꢀavailable.ꢀTheꢀRCꢀ
functionꢀallowsꢀtheꢀconverterꢀtoꢀbeꢀ
turnedꢀon/offꢀbyꢀanꢀexternalꢀdeviceꢀ
likeꢀaꢀsemiconductorꢀorꢀmechanicalꢀ
switch.ꢀTheꢀRCꢀpinꢀhasꢀanꢀinternalꢀ
+In
RC
-In
AllꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀhaveꢀanꢀOutputꢀ
Voltageꢀadjustꢀpinꢀ(Vadj).ꢀThisꢀpinꢀcanꢀbeꢀusedꢀtoꢀadjustꢀtheꢀ
outputꢀvoltageꢀaboveꢀorꢀbelowꢀOutputꢀvoltageꢀinitialꢀsetting.ꢀ
Whenꢀincreasingꢀtheꢀoutputꢀvoltage,ꢀtheꢀvoltageꢀatꢀtheꢀoutputꢀ
pinsꢀ(includingꢀanyꢀremoteꢀsenseꢀoffset)ꢀmustꢀbeꢀkeptꢀbelowꢀ
theꢀovervoltageꢀtripꢀpoint,ꢀtoꢀpreventꢀtheꢀconverterꢀfromꢀ
shutꢀdown.ꢀAlsoꢀnoteꢀthatꢀatꢀincreasedꢀoutputꢀvoltagesꢀtheꢀ
maximumꢀpowerꢀratingꢀofꢀtheꢀconverterꢀremainsꢀtheꢀsame,ꢀ
andꢀtheꢀoutputꢀcurrentꢀcapabilityꢀwillꢀdecreaseꢀcorrespond-
ingly.ꢀToꢀdecreaseꢀtheꢀoutputꢀvoltageꢀtheꢀresistorꢀshouldꢀbeꢀ
connectedꢀbetweenꢀVadjꢀpinꢀandꢀ–Senseꢀpin.ꢀToꢀincreaseꢀ
theꢀvoltageꢀtheꢀresistorꢀshouldꢀbeꢀconnectedꢀbetweenꢀVadjꢀ
pinꢀandꢀ+Senseꢀpin.ꢀTheꢀresistorꢀvalueꢀofꢀtheꢀOutputꢀvoltageꢀ
adjustꢀfunctionꢀisꢀaccordingꢀtoꢀinformationꢀgivenꢀunderꢀtheꢀ
outputꢀsection.
Circuitꢀconfigurationꢀꢀ
forꢀRCꢀfunction
pullꢀupꢀresistorꢀtoꢀ+ꢀIn.ꢀTheꢀneededꢀmaximumꢀsinkꢀcurrentꢀ
isꢀ1mA.ꢀWhenꢀtheꢀRCꢀpinꢀisꢀleftꢀopen,ꢀtheꢀvoltageꢀgeneratedꢀ
onꢀtheꢀRCꢀpinꢀisꢀ3.5-6.0V.ꢀTheꢀmaximumꢀallowableꢀleakageꢀ
currentꢀofꢀtheꢀswitchꢀisꢀ50µA.ꢀ
Theꢀstandardꢀconverterꢀisꢀprovidedꢀwithꢀ“negativeꢀlogic”ꢀ
remoteꢀcontrolꢀandꢀtheꢀconverterꢀwillꢀbeꢀoffꢀuntilꢀtheꢀRCꢀ
pinꢀisꢀconnectedꢀtoꢀtheꢀ-ꢀIn.ꢀToꢀturnꢀonꢀtheꢀconverterꢀtheꢀ
voltageꢀbetweenꢀRCꢀpinꢀandꢀ-ꢀInꢀshouldꢀbeꢀlessꢀthanꢀ1V.ꢀ
ToꢀturnꢀoffꢀtheꢀconverterꢀtheꢀRCꢀpinꢀshouldꢀbeꢀleftꢀopen,ꢀorꢀ
connectedꢀtoꢀaꢀvoltageꢀhigherꢀthanꢀ4Vꢀreferencedꢀtoꢀ-ꢀIn.ꢀInꢀ
situationsꢀwhereꢀitꢀisꢀdesiredꢀtoꢀhaveꢀtheꢀconverterꢀtoꢀpowerꢀ
upꢀautomaticallyꢀwithoutꢀtheꢀneedꢀforꢀcontrolꢀsignalsꢀorꢀaꢀ
switch,ꢀtheꢀRCꢀpinꢀcanꢀbeꢀwiredꢀdirectlyꢀtoꢀ-ꢀIn.
+Out
+Out
+Sense
+Sense
R
adj
Load
Theꢀsecondꢀoptionꢀisꢀ“positiveꢀlogic”ꢀremoteꢀcontrol,ꢀwhichꢀ
canꢀbeꢀorderedꢀbyꢀaddingꢀtheꢀsuffixꢀ“P”ꢀtoꢀtheꢀendꢀofꢀtheꢀ
partꢀnumber.ꢀTheꢀconverterꢀwillꢀturnꢀonꢀwhenꢀtheꢀinputꢀ
voltageꢀisꢀappliedꢀwithꢀtheꢀRCꢀpinꢀopen.ꢀTurnꢀoffꢀisꢀachievedꢀ
byꢀconnectingꢀtheꢀRCꢀpinꢀtoꢀtheꢀ-ꢀIn.ꢀToꢀensureꢀsafeꢀturnꢀ
offꢀtheꢀvoltageꢀdifferenceꢀbetweenꢀRCꢀpinꢀandꢀtheꢀ-ꢀInꢀpinꢀ
shallꢀbeꢀlessꢀthanꢀ1V.ꢀTheꢀconverterꢀwillꢀrestartꢀautomaticallyꢀ
whenꢀthisꢀconnectionꢀisꢀopened.
Load
V
V
adj
adj
R
adj
-Sense
-Sense
-Out
-Out
Decrease
Increase
Circuitꢀconfigurationꢀforꢀoutputꢀvoltageꢀadjust
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
ꢁ6
Operating Information
Current Limit Protection
Maximum Capacitive Load
Whenꢀpoweringꢀloadsꢀwithꢀsignificantꢀdynamicꢀcurrentꢀ
requirements,ꢀtheꢀvoltageꢀregulationꢀatꢀtheꢀloadꢀcanꢀbeꢀ
improvedꢀbyꢀadditionꢀofꢀdecouplingꢀcapacitanceꢀatꢀtheꢀ
load.ꢀTheꢀmostꢀaffectiveꢀtechniqueꢀisꢀtoꢀlocateꢀlowꢀESRꢀ
ceramicꢀcapacitorsꢀasꢀcloseꢀtoꢀtheꢀloadꢀasꢀpossible,ꢀusingꢀ
severalꢀcapacitorsꢀtoꢀlowerꢀtheꢀeffectiveꢀESR.ꢀTheseꢀ
ceramicꢀcapacitorsꢀwillꢀhandleꢀshortꢀdurationꢀhigh-frequencyꢀ
componentsꢀofꢀdynamicꢀloadꢀchanges.ꢀInꢀaddition,ꢀhigherꢀ
valuesꢀofꢀelectrolyticꢀcapacitorsꢀshouldꢀbeꢀusedꢀtoꢀhandleꢀ
theꢀmid-frequencyꢀcomponents.ꢀItꢀisꢀequallyꢀimportantꢀ
toꢀuseꢀgoodꢀdesignꢀpractiseꢀwhenꢀconfiguringꢀtheꢀDCꢀ
distributionꢀsystem.
LowꢀresistanceꢀandꢀlowꢀinductanceꢀPCBꢀ(printedꢀcircuitꢀ
board)ꢀlayoutsꢀandꢀcablingꢀshouldꢀbeꢀused.ꢀRememberꢀthatꢀ
whenꢀusingꢀremoteꢀsensing,ꢀallꢀresistance,ꢀinductanceꢀandꢀ
capacitanceꢀofꢀtheꢀdistributionꢀsystemꢀisꢀwithinꢀtheꢀfeedbackꢀ
loopꢀofꢀtheꢀconverter.ꢀThisꢀcanꢀaffectꢀonꢀtheꢀconvertersꢀ
compensationꢀandꢀtheꢀresultingꢀstabilityꢀandꢀdynamicꢀ
responseꢀperformance.ꢀAsꢀaꢀ“ruleꢀofꢀthumb”,ꢀ100ꢀµF/Aꢀofꢀ
outputꢀcurrentꢀcanꢀbeꢀusedꢀwithoutꢀanyꢀadditionalꢀanalysis.ꢀ
Forꢀexampleꢀwithꢀaꢀ25Aꢀconverter,ꢀvaluesꢀofꢀdecouplingꢀ
capacitanceꢀupꢀtoꢀ2500ꢀµFꢀcanꢀbeꢀusedꢀwithoutꢀregardꢀtoꢀ
stability.ꢀWithꢀlargerꢀvaluesꢀofꢀcapacitance,ꢀtheꢀloadꢀtransientꢀ
recoveryꢀtimeꢀcanꢀexceedꢀtheꢀspecifiedꢀvalue.ꢀAsꢀmuchꢀofꢀ
theꢀcapacitanceꢀasꢀpossibleꢀshouldꢀbeꢀoutsideꢀtheꢀremoteꢀ
sensingꢀloopꢀandꢀcloseꢀtoꢀtheꢀload.ꢀTheꢀabsoluteꢀmaximumꢀ
valueꢀofꢀoutputꢀcapacitanceꢀisꢀ10ꢀ000ꢀµF.ꢀForꢀvaluesꢀlargerꢀ
thanꢀthis,ꢀpleaseꢀcontactꢀyourꢀlocalꢀEricssonꢀPowerꢀModulesꢀ
representative.
TheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀincludeꢀcurrentꢀ
limitingꢀcircuitryꢀthatꢀallowsꢀthemꢀtoꢀwithstandꢀcontinuousꢀ
overloadsꢀorꢀshortꢀcircuitꢀconditionsꢀonꢀtheꢀoutput.ꢀTheꢀout-
putꢀvoltageꢀwillꢀdecreaseꢀtowardsꢀzeroꢀforꢀoutputꢀcurrentsꢀinꢀ
excessꢀofꢀmaxꢀoutputꢀcurrentꢀ(Iomax).
Theꢀconverterꢀwillꢀresumeꢀnormalꢀoperationꢀafterꢀremovalꢀ
ofꢀtheꢀoverload.ꢀTheꢀloadꢀdistributionꢀsystemꢀshouldꢀbeꢀ
designedꢀtoꢀcarryꢀtheꢀmaximumꢀoutputꢀshortꢀcircuitꢀcurrentꢀ
specified.
Over Voltage Protection (OVP)
TheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀhaveꢀlatchingꢀ
outputꢀovervoltageꢀprotection.ꢀInꢀtheꢀeventꢀofꢀanꢀovervolt-
ageꢀcondition,ꢀtheꢀconverterꢀwillꢀshutꢀdownꢀimmediately.ꢀTheꢀ
converterꢀcanꢀbeꢀrestartedꢀbyꢀcyclingꢀtheꢀinputꢀvoltageꢀorꢀ
usingꢀtheꢀremoteꢀcontrolꢀfunction.
Over Temperature Protection (OTP)
TheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀareꢀprotectedꢀfromꢀ
thermalꢀoverloadꢀbyꢀanꢀinternalꢀoverꢀtemperatureꢀshutdownꢀ
circuit.ꢀWhenꢀtheꢀPCBꢀtemperatureꢀ(centreꢀofꢀPCBꢀ)ꢀexceedsꢀ
135ꢀ°Cꢀtheꢀconverterꢀwillꢀshutꢀdownꢀimmediatelyꢀ(latching).ꢀ
Theꢀconverterꢀcanꢀbeꢀrestartedꢀbyꢀcyclingꢀtheꢀinputꢀvoltageꢀ
orꢀusingꢀtheꢀremoteꢀcontrolꢀfunction.ꢀ
Input And Output Impedance
Theꢀimpedanceꢀofꢀbothꢀtheꢀpowerꢀsourceꢀandꢀtheꢀloadꢀwillꢀ
interactꢀwithꢀtheꢀimpedanceꢀofꢀtheꢀDC/DCꢀconverter.ꢀItꢀisꢀ
mostꢀimportantꢀtoꢀhaveꢀaꢀratioꢀbetweenꢀLꢀandꢀCꢀasꢀlowꢀ
asꢀpossible,ꢀi.e.ꢀaꢀlowꢀcharacteristicꢀimpedance,ꢀbothꢀatꢀ
theꢀinputꢀandꢀoutput,ꢀasꢀtheꢀconvertersꢀhaveꢀaꢀlowꢀenergyꢀ
storageꢀcapability.ꢀTheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀ
haveꢀbeenꢀdesignedꢀtoꢀbeꢀcompletelyꢀstableꢀwithoutꢀtheꢀ
needꢀforꢀexternalꢀcapacitorsꢀonꢀtheꢀinputꢀorꢀtheꢀoutputꢀ
circuits.ꢀTheꢀperformanceꢀinꢀsomeꢀapplicationsꢀcanꢀbeꢀ
enhancedꢀbyꢀadditionꢀofꢀexternalꢀcapacitanceꢀasꢀdescribedꢀ
underꢀmaximumꢀcapacitiveꢀload.ꢀꢀIfꢀtheꢀdistributionꢀofꢀtheꢀ
inputꢀvoltageꢀsourceꢀtoꢀtheꢀconverterꢀcontainsꢀsignificantꢀ
inductance,ꢀtheꢀadditionꢀofꢀaꢀ100µFꢀcapacitorꢀacrossꢀtheꢀ
inputꢀofꢀtheꢀconverterꢀwillꢀhelpꢀinsureꢀstability.ꢀThisꢀcapacitorꢀ
isꢀnotꢀrequiredꢀwhenꢀpoweringꢀtheꢀDC/DCꢀconverterꢀfromꢀ
aꢀlowꢀimpedanceꢀsourceꢀwithꢀshort,ꢀlowꢀinductance,ꢀinputꢀ
powerꢀleads.
Parallel Operation
TheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀcanꢀbeꢀparalleledꢀ
forꢀredundancyꢀifꢀexternalꢀ"O"-ringꢀdiodesꢀareꢀusedꢀinꢀseriesꢀ
withꢀtheꢀoutputs.ꢀItꢀisꢀnotꢀrecommendedꢀtoꢀparallelꢀtheꢀPKJꢀ
4000EꢀSeriesꢀDC/DCꢀconvertersꢀforꢀincreasedꢀpowerꢀwithoutꢀ
usingꢀexternalꢀcurrentꢀsharingꢀcircuits.
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
27
2.ꢀFindꢀtheꢀvalueꢀofꢀtheꢀthermalꢀresistanceꢀforꢀeachꢀproductꢀinꢀ
1.ꢀ
ꢀ
ꢀ
Theꢀpowerlossꢀisꢀcalculatedꢀbyꢀusingꢀtheꢀformula
((1/η)ꢀ-ꢀ1)ꢀ×ꢀoutputꢀpowerꢀ=ꢀpowerꢀlosses.ꢀ
ꢀηꢀ=ꢀefficiencyꢀofꢀconverter.ꢀE.gꢀ89%ꢀ=ꢀ0.89
Thermal Consideration
General
Calculation of ambient temperature
TheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀareꢀdesignedꢀ
toꢀoperateꢀinꢀaꢀvarietyꢀofꢀthermalꢀenvironments,ꢀhoweverꢀ
sufficientꢀcoolingꢀshouldꢀbeꢀprovidedꢀtoꢀhelpꢀensureꢀreliableꢀ
operation.ꢀHeatꢀisꢀremovedꢀbyꢀconduction,ꢀconvectionꢀandꢀ
radiationꢀtoꢀtheꢀsurroundingꢀenvironment.ꢀIncreasedꢀairflowꢀ
enhancesꢀtheꢀheatꢀtransferꢀviaꢀconvection.ꢀTheꢀavailableꢀ
loadꢀcurrentꢀvs.ꢀambientꢀairꢀtemperatureꢀandꢀairflowꢀatꢀ
Vin=53ꢀVꢀforꢀeachꢀmodelꢀisꢀaccordingꢀtoꢀtheꢀinformationꢀ
givenꢀunderꢀtheꢀoutputꢀsection.ꢀTheꢀtestꢀisꢀdoneꢀinꢀaꢀwindꢀ
tunnelꢀwithꢀaꢀcrossꢀsectionꢀofꢀ305x305mm,ꢀtheꢀDC/DCꢀ
converterꢀverticallyꢀmountedꢀonꢀaꢀ8ꢀlayerꢀPCBꢀwithꢀaꢀsizeꢀ
ofꢀ254x254mm.ꢀEachꢀlayerꢀwithꢀ35ꢀµmꢀ(1oz)ꢀcopper.ꢀProperꢀ
coolingꢀcanꢀbeꢀverifiedꢀbyꢀmeasuringꢀtheꢀtemperatureꢀofꢀ
selectedꢀdevices.ꢀPeakꢀtemperatureꢀcanꢀoccurꢀatꢀpositionꢀ
P1ꢀandꢀP2.ꢀTheꢀtemperatureꢀatꢀtheseꢀpositionsꢀshouldꢀnotꢀ
exceedꢀtheꢀrecommendedꢀmaxꢀvalues.
Byꢀusingꢀtheꢀthermalꢀresistanceꢀtheꢀmaximumꢀallowedꢀꢀ
ambientꢀtemperatureꢀcanꢀbeꢀcalculated.ꢀ
theꢀdiagramꢀbyꢀusingꢀtheꢀairflowꢀspeedꢀatꢀtheꢀoutputꢀsectionꢀ
ofꢀtheꢀconverter.ꢀTakeꢀtheꢀthermalꢀresistanceꢀxꢀpowerlossꢀtoꢀ
getꢀtheꢀtemperatureꢀincrease.
3.ꢀMaxꢀallowedꢀcalculatedꢀambientꢀtemperatureꢀis:ꢀMaxꢀꢀ
ꢀ
TPCBꢀofꢀDC/DCꢀconverterꢀ–ꢀtemperatureꢀincrease.
E.gꢀPKJꢀ4810EꢀPIꢀatꢀ1m/s:
1ꢀꢀꢀ
A.ꢀ((ꢀꢀꢀꢀꢀꢀꢀꢀ)ꢀ-ꢀ1)ꢀ×ꢀ82.5Wꢀ=ꢀ10.2Wꢀ
0.89ꢀ
ꢀ
B.ꢀ10.2Wꢀ×ꢀ5.1°C/Wꢀ=ꢀ52°Cꢀ
Position
P1
Device
Tcritical
Tsurface
Tcore
RecommendedꢀMaxꢀValueꢀ
C.125°Cꢀ-ꢀ52°Cꢀ=ꢀmaxꢀambientꢀtemperatureꢀisꢀ73°Cꢀꢀ
FR4ꢀPWB
125ºC
125ºC
Theꢀrealꢀtemperatureꢀwillꢀbeꢀdependentꢀonꢀseveralꢀfactors,ꢀ
likeꢀPCBꢀsizeꢀandꢀtype,ꢀdirectionꢀofꢀairflow,ꢀairꢀturbulenceꢀ
etc.ꢀItꢀisꢀrecommendedꢀtoꢀverifyꢀtheꢀtemperatureꢀbyꢀtesting.ꢀ
P2
Transformer
P1
Airflow
P2
Airflow
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
ꢁ8
Miscellaneous
Quality
Soldering Information
Reliability
TheꢀMeanꢀTimeꢀBetweenꢀFailureꢀ(MTBF)ꢀofꢀtheꢀPKJꢀ4000Eꢀ
seriesꢀ DC/DCꢀ converterꢀ familyꢀ isꢀ calculatedꢀ toꢀ beꢀ greaterꢀ
thanꢀ (>)ꢀ 7.6ꢀ millionꢀ hoursꢀ atꢀ fullꢀ outputꢀ powerꢀ andꢀ aꢀ PCBꢀ
temperatureꢀofꢀ+110°CꢀusingꢀtheꢀEricssonꢀfailureꢀrateꢀdataꢀ
systemꢀ (TILDA/Preditool).ꢀ ꢀ Theꢀ Ericssonꢀ failureꢀ rateꢀ dataꢀ
systemꢀ isꢀ basedꢀ onꢀ fieldꢀ failureꢀ ratesꢀ andꢀ isꢀ continuouslyꢀ
updated.ꢀ ꢀ Theꢀ dataꢀ correspondsꢀ toꢀ actualꢀ failureꢀ ratesꢀ ofꢀ
componentsꢀ usedꢀ inꢀ Informationꢀ Technologyꢀ andꢀ Telecomꢀ
equipmentꢀ inꢀ temperatureꢀ controlledꢀ environmentsꢀ (TA=ꢀ
-5...+65°C).ꢀꢀTheꢀdataꢀisꢀconsideredꢀtoꢀhaveꢀaꢀconfidenceꢀ
levelꢀofꢀ90%.ꢀꢀForꢀmoreꢀinformationꢀpleaseꢀreferꢀtoꢀDesignꢀ
Noteꢀ002.ꢀꢀ
TheꢀPKJꢀ4000EꢀSeriesꢀDC/DCꢀconvertersꢀareꢀintendedꢀforꢀ
throughꢀholeꢀmountingꢀonꢀaꢀPCB.ꢀWhenꢀwaveꢀsolderingꢀisꢀ
usedꢀmaxꢀtemperatureꢀonꢀtheꢀpinsꢀareꢀspecifiedꢀtoꢀ215°Cꢀforꢀ
10ꢀseconds.ꢀMaximumꢀpreheatꢀrateꢀofꢀꢀ4°C/sꢀisꢀsuggested.ꢀ
Whenꢀhandꢀsolderingꢀisꢀusedꢀaꢀthermocoupleꢀneedsꢀtoꢀbeꢀ
mountedꢀ onꢀ theꢀ DC/DCꢀ converterꢀ pinsꢀ toꢀ verifyꢀ thatꢀ pinꢀ
temperaturesꢀdoesꢀnotꢀexceedꢀ215°Cꢀforꢀlongerꢀtimeꢀthanꢀ10ꢀ
secondsꢀwithꢀtheꢀusedꢀsolderingꢀtools.
No-cleanꢀ fluxꢀ isꢀ recommendedꢀ toꢀ avoidꢀ entrapmentꢀ ofꢀ
cleaningꢀfluidsꢀinꢀcavitiesꢀinsideꢀofꢀtheꢀDC/DCꢀpowerꢀmodule.ꢀ
Theꢀ residuesꢀ mayꢀ affectꢀ longꢀ timeꢀ reliabilityꢀ andꢀ isolationꢀ
voltage.
Quality Statement
TheꢀPKJꢀ4000EꢀseriesꢀDC/DCꢀconvertersꢀareꢀdesignedꢀandꢀ
manufacturedꢀ inꢀ anꢀ industrialꢀ environmentꢀ whereꢀ qualityꢀ
systemsꢀandꢀmethodsꢀlikeꢀISOꢀ9000,ꢀ6σꢀ(sigma),ꢀandꢀSPCꢀ
areꢀintensivelyꢀinꢀuseꢀtoꢀboostꢀtheꢀcontinuousꢀimprovementsꢀ
strategy.ꢀꢀInfantꢀmortalityꢀorꢀearlyꢀfailuresꢀinꢀtheꢀproductsꢀareꢀ
screenedꢀoutꢀandꢀtheyꢀareꢀsubjectedꢀtoꢀanꢀATE-basedꢀfinalꢀ
test.ꢀConservativeꢀdesignꢀrules,ꢀdesignꢀreviewsꢀandꢀproductꢀ
qualifications,ꢀplusꢀtheꢀhighꢀcompetenceꢀofꢀanꢀengagedꢀworkꢀ
force,ꢀcontributeꢀtoꢀtheꢀhighꢀqualityꢀofꢀourꢀproducts.
Delivery Package Information
PKJꢀ4000Eꢀseriesꢀstandardꢀdeliveryꢀpackageꢀisꢀaꢀ50ꢀpcsꢀboxꢀ
(Oneꢀboxꢀcontainsꢀ5ꢀfullꢀtraysꢀandꢀ1ꢀemptyꢀholdꢀdownꢀtray).ꢀ
Tray Specification
Material:ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Polystyreneꢀ(PS)ꢀ
10ꢀMOhm/sqꢀ
Blackꢀ
10ꢀpcs/trayꢀ
15.3ꢀmm
Maxꢀsurfaceꢀresistance:ꢀ
Color:ꢀ
Capacity:ꢀ
Loadedꢀtrayꢀstackingꢀpitch:ꢀ
Weight:ꢀ
ꢀ
133ꢀgꢀ
Warranty
WarrantyꢀperiodꢀandꢀconditionsꢀareꢀdefinedꢀinꢀEricssonꢀ
PowerꢀModulesꢀGeneralꢀTermsꢀandꢀConditionsꢀofꢀSale.
Compatibility with RoHS requirements
Theꢀproductsꢀareꢀcompatibleꢀwithꢀtheꢀrelevantꢀclausesꢀandꢀ
requirementsꢀofꢀtheꢀRoHSꢀdirectiveꢀ2002/95/ECꢀandꢀhaveꢀaꢀ
maximumꢀconcentrationꢀvalueꢀofꢀ0.1%ꢀbyꢀweightꢀinꢀhomoge-
neousꢀmaterialsꢀforꢀlead,ꢀmercury,ꢀhexavalentꢀchromium,ꢀPBBꢀ
andꢀPBDEꢀandꢀofꢀ0.01%ꢀbyꢀweightꢀinꢀhomogeneousꢀmaterialsꢀ
forꢀcadmium.
Limitation of Liability
Ericssonꢀ Powerꢀ Modulesꢀ doesꢀ notꢀ makeꢀ anyꢀ otherꢀ
warranties,ꢀexpressedꢀorꢀimpliedꢀincludingꢀanyꢀwarrantyꢀofꢀ
merchantabilityꢀorꢀfitnessꢀforꢀaꢀparticularꢀpurposeꢀ(including,ꢀ
butꢀ notꢀ limitedꢀ to,ꢀ useꢀ inꢀ lifeꢀ supportꢀ applications,ꢀ whereꢀ
malfunctionsꢀofꢀproductꢀcanꢀcauseꢀinjuryꢀtoꢀaꢀperson'sꢀhealthꢀ
ExemptionsꢀinꢀtheꢀRoHSꢀdirectiveꢀutilizedꢀinꢀEricssonꢀPowerꢀ
Modulesꢀproductsꢀinclude:ꢀꢀꢀ
-ꢀ Leadꢀinꢀhighꢀmeltingꢀtemperatureꢀtypeꢀsolderꢀ(usedꢀtoꢀꢀ
ꢀ solderꢀtheꢀdieꢀinꢀsemiconductorꢀpackages)ꢀ
orꢀlife).ꢀ
-ꢀ Leadꢀinꢀglassꢀofꢀelectronicsꢀcomponentsꢀandꢀinꢀelectronicꢀꢀ
ꢀ ceramicꢀpartsꢀ(e.g.ꢀfillꢀmaterialꢀinꢀchipꢀresistors)ꢀ
-ꢀ Leadꢀasꢀanꢀalloyingꢀelementꢀinꢀcopperꢀalloyꢀcontainingꢀupꢀtoꢀ
4%ꢀleadꢀbyꢀweightꢀ(usedꢀinꢀconnectionꢀpinsꢀmadeꢀofꢀBrass)ꢀ
PKJꢀ4000EꢀPIꢀꢀꢀꢀꢀEN/LZTꢀ146ꢀ025ꢀR8Aꢀ©EricssonꢀPowerꢀModules,ꢀJuneꢀ2007
29
Product Program
VO/IOꢀmax
Comment
VI
POꢀmax
OrderingꢀNo.
Outputꢀ1
1.5ꢀV/40ꢀA
48/60
48/60
48/60
48/60
48/60
48/60
48/60
48/60
60ꢀW
PKJꢀ4618HEꢀPI
PKJꢀ4618GEꢀPI
PKJꢀ4719EꢀPI
PKJꢀ4810EꢀPI
PKJꢀ4110EꢀPI
PKJꢀ4111EꢀPI
PKJꢀ4113EꢀPI
PKJꢀ4115EꢀPI
1.8ꢀV/36ꢀA
2.5ꢀV/30ꢀA
3.3ꢀV/25ꢀA
3.3ꢀV/30ꢀA
5ꢀV/20ꢀA
65ꢀW
75.5ꢀW
82.5ꢀW
100ꢀW
100ꢀW
100ꢀW
100ꢀW
SeeꢀTechnicalꢀSpecificationꢀPKJ4110EꢀPI
12ꢀV/8.3ꢀA
15ꢀV/6.7ꢀA
TheꢀPKJEꢀseriesꢀDC/DCꢀconverterꢀmayꢀbeꢀorderedꢀwithꢀdifferentꢀoptionsꢀ
listedꢀinꢀtheꢀProductꢀOptionsꢀTable.ꢀ
Forꢀmoreꢀinformationꢀaboutꢀtheꢀcompleteꢀproductꢀprogram,ꢀpleaseꢀreferꢀ
toꢀourꢀwebsite:ꢀwww.ericsson.com/powermodules
Product Options
Option
Suffix
P
Ordering No.
PKJꢀ4810EꢀPIP
PKJꢀ4810EꢀPILA
PositiveꢀRemoteꢀcontrolꢀlogic
Pinꢀlengthꢀ3.6ꢀmmꢀ(0.14ꢀin)
LA
Note:ꢀ Asꢀanꢀexampleꢀaꢀpositiveꢀlogic,ꢀshortꢀpinꢀꢀ
productꢀwouldꢀbeꢀPKJꢀ4810EꢀPIPLAꢀ
ꢀ
ꢀ
Informationꢀgivenꢀinꢀthisꢀdataꢀsheetꢀisꢀbelievedꢀtoꢀbeꢀaccurateꢀandꢀreliable.ꢀꢀ
Noꢀresponsibilityꢀisꢀassumedꢀforꢀtheꢀconsequencesꢀofꢀitsꢀuseꢀnorꢀforꢀanyꢀinfringementꢀ
ofꢀpatentsꢀorꢀotherꢀrightsꢀofꢀthirdꢀpartiesꢀwhichꢀmayꢀresultꢀfromꢀitsꢀuse.ꢀꢀ
Noꢀlicenseꢀisꢀgrantedꢀbyꢀimplicationꢀorꢀotherwiseꢀunderꢀanyꢀpatentꢀorꢀpatentꢀrightsꢀofꢀ
EricssonꢀPowerꢀModules.ꢀTheseꢀproductsꢀareꢀsoldꢀonlyꢀaccordingꢀtoꢀꢀ
EricssonꢀPowerꢀModules’ꢀgeneralꢀconditionsꢀofꢀsale,ꢀunlessꢀotherwiseꢀconfirmedꢀinꢀ
writing.ꢀSpecificationsꢀsubjectꢀtoꢀchangeꢀwithoutꢀnotice.ꢀ
Theꢀlatestꢀandꢀmostꢀcompleteꢀinfor-ꢀ
Ericsson Power Modules
Americas
mationꢀcanꢀbeꢀfoundꢀonꢀourꢀwebsite
SE-126ꢀ25ꢀStockholm,ꢀSwedenꢀ
Telephone:ꢀ+46ꢀ8ꢀ568ꢀ69620ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
EricssonꢀInc.,ꢀPowerꢀModules
+1-972-583-5224,ꢀ+1-972-583-6910
Datasheet
Forꢀlocalꢀsalesꢀcontacts,ꢀpleaseꢀreferꢀtoꢀourꢀwebsiteꢀ
www.ericsson.com/powermodulesꢀ
orꢀcall:ꢀIntꢀ+46ꢀ8ꢀ568ꢀ69620,ꢀFax:ꢀ+46ꢀ8ꢀ568ꢀ69599ꢀ
Asia/Pacificꢀ
EricssonꢀLtd.
+852-2590-2453
ꢀ
EN/LZTꢀ146ꢀ025ꢀR8A
©ꢀEricssonꢀPowerꢀModulesꢀAB,ꢀJuneꢀ2007
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