ht45b0016 wireless charger transmitter’s power …...rev. 1.00 1 march 08, 2018 rev. 1.00 pb march...
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Rev. 1.00 1 March 08, 2018 Rev. 1.00 PB March 08, 2018
HT45B0016Wireless Charger Transmitter’s Power Stage
Features• IntegratedLowSideNMOS:RDSON=12mΩ@
VCC=5V• IntegratedHighSideNMOS:RDSON=30mΩ@
VCC=5V• IntegratedOCPfunctionwithovercurrent triggerpointadjustableusinganexternalresistor
• IntegratedOTPfunction• Enablepin(EN)controlstheoutputstatus• Packagetype:23-pinQFN
General DescriptionTheHT45B0016isa two-in-onepowerhalf-bridgechip developed byHoltek forwireless chargerapplications.The half-bridge power stagewithintegratedNMOS,canworkwiththeHT66FW2230orHT66FW2350 to achieve completewirelesschargersolutions.TheVINinputrangeis4.5V~25Vcovering various wireless charger transmittertypes.TheHT45B0016chipcanbe flexiblyusedindifferenct architectures, a single chip forhalf-bridgedriverLCseriesresonanceandtwochipsforfull-bridgedriverLCseries resonance.Combinedwith theHT66FW2230orHT66FW2350softwarearhcitecture,ahalf-bridgesolutioncanbeusedforlowpowerapplicationswhileafull-bridgesolutioncanbeusedformediumpowerapplications.
TheHT45B0016 is supplied in the 23-pinQFNpackage type.ThePCBlayoutandother importantinformationareprovidedinthefollowingsections.
Pin Assignment
HT45B001623 QFN-A
6
5
4
3
2
1
12
13
14
15
16
17OCSET
EN
AGND
PWM
LX
LX
PGND
PGND
PGND
PGNDVIN LX
24 25EN
VIN
7 8 9 10 11
VIN
VIN
LX LX
VCC
VIN
PVCC
PGND LX
181920212223
BST
VIN
Order Number Marking Temp. Range Package (Green)HT45B0016QT1U HT45B0016 -40˚C to +85˚C 23QFN (4mm×4mm)
Note:QT:QFN4X4-23; 1:BondingCode; U:Tape&Reel;
Green:LeadFree/HalogenFree.
Rev. 1.00 2 March 08, 2018
HT45B0016
Pin DescriptionNo. Pin Name Description
1 OCSET OCP setup; connects a resistor to ground for OCP trigger setup.2, 3 EN Enable pin. High=enable; Low=disable. Can not be floating.4 AGND Analog ground5 PWM Driver PWM input6, 7, 8, 9, 22, 24 VIN Power supply
10, 11, 16, 17, 18, 25 LX High side and low side MOSFET node. PWM output voltage connects the output LC resonance circuit.
12, 13, 14, 15, 19 PGND Power supply ground20 BST Boost capacitor connection; externally connects a capacitor to LX.21 PVCC Driver power supply
23 VCC Analog power supply for internal circuits; connects a bypass capacitor to AGND.
Absolute Maximum RatingsVINtoAGND.........................................-0.3Vto30V
VCCtoAGND..........................................-0.3Vto6V
PVCCtoAGND........................................-0.3Vto6V
EN,OCSET,PWMtoAGND...................-0.3Vto6V
BSTtoPGND.........................................-0.3Vto35V
LXtoBST.................................................-6Vto0.3V
ThermalResistanceof Juntion toAmbient, (θJA)QFN4X4-23.................................................... 25˚C/W
JunctionTemperature..........................................150˚C
StorageTemperature........................... -65˚Cto150˚C
ReflowTemperature(soldering,10seconds).....300˚C
Note:Thesearestressratingsonly.Stressesexceedingtherangespecifiedunder"AbsoluteMaximumRatings"maycausesubstantialdamagetothedevice.Functionaloperationofthedeviceatotherconditionsbeyondthoselistedin thespecificationisnot impliedandprolongedexposuretoextremeconditionsmayaffectdevicesreliability.
Electrical CharacteristicsThedeviceisnotguaranteedtofunctionoutsideitsoperatingconditions.ParameterswithMin.and/orMax.limitsare100%testedat+25˚C,unlessotherwisespecifed.
Parameter Conditions Min. Typ. Max. UnitVIN Input Voltage Range VIN 4.5 — 25 VVCC Input Voltage Range VCC 4.5 5 5.5 VQuiescent Supply Current (VCC) EN=High, PWM=Low — 210 250 μAShutdown Current (VCC) EN=Low — — 1 μAVCC Rising POR Threshold — 3.7 4.0 4.3 VVCC POR Hysteresis — 150 200 250 mVZero Current Detect LX-PGND -5 — 5 mVOCSET Current Source — 9 10 11 μAThermal Shutdown Threshold Hysteresis=45˚C — 145 — ˚CHigh Side Switch Resistance BST-LX forced to 5V, VCC=5V — 30 — mΩLow Side Switch Resistance VCC=5V — 12 — mΩ
PWM Input Logic ThresholdPWM Rising (VTH_PWM_R) 3.6 3.9 4.1
VPWM Falling (VTH_PWM_F) 1.0 1.2 1.4
Tri-state Input Rising Logic ThresholdPWM Rising (VTH_PWM_R) 1.0 1.3 1.6 VHysteresis 140 280 420 mV
Rev. 1.00 3 March 08, 2018
HT45B0016
Parameter Conditions Min. Typ. Max. Unit
Tri-state Input Falling Logic ThresholdPWM Falling (VTH_PWM_F) 3.4 3.7 4.0 VHysteresis 85 170 255 mV
Logic Input High Voltage EN 2.0 — — VLogic Input Low Voltage EN — — 0.8 VPWM to High Side Gate (tPD_OFF_DH) PWM High to Low to DH High to Low — 20 — nsPWM to Low Side Gate (tPD_OFF_DL) PWM Low to High to DL High to Low — 20 — nsLow to High Side Gate Deadtime (tPD_ON_DH) DL High to Low to DH Low to High — 20 — nsHigh to Low Side Gate Deadtime (tPD_ON_DL) DH High to Low to DL Low to High — 20 — ns
PWM Timing Diagram
EN
PWM
DL
DH
tPD_OFF_DLtPD_ON_DL
tPD_ON_DL
tPD_OFF_DL
PWM Logic Output vs. EN Status
EN PWM DH DLL x L LH H H LH L L H
Note: L=Low; H=High; x=Don’t care.
Output Truth Table
Rev. 1.00 4 March 08, 2018
HT45B0016
Application Circuits
15W Wireless Charger TX MP-A2 Type
J3
OC
DS
RS
E1
0.05R
C13
10n/50v
R6
33k/1%
C4
10uF/25v
D2
LED(G
)
C8
47nF/250V/NPO
C22
0.1uF/25v
C20
4.7nF/16v
C3
0.1uF/250V/NPO
C18
10uF/10v
D1
BAV21WS C
10.1uF/25v
C21
220PF/16v
R30
1k
R22
1k/1%
C10
0.1uF/25v
R18
10K Temp.
C9
NC
C12
680pFD
3LED
(R)
R15
33K
R11
1k
L2WPC
_L
R14
6.8K
C2
10uF/25v
L1WPC
_L
R31
1k
C19
0.1uF/25v
R33
130k
R16
100K
C11
5.6n/50v
C6
0.1uF/250V/NPO
C5
10uF/25v
R12
100K
GND
GND
R1
300k/1%
C7
0.1uF/25v DetectV
in
Isen
Idemo
5V5V
5V
FODtem
p
R13
1.5kOCDSC
KOCDSD
AVdem
oDEM
O1A
P
PLLCOML
R24
100kC
160.1uF/25v
J1Vin=12v
J2GN
D 5V
Vdem
o
GND
TP_2TestPoint
V-D
emodulation
Full-Bridge R
esonance
Tem
perature Sensor
R37
3k
C25
10n/25v
C23
15nF/25v
R39
10k
R38
620k
R40
10k
R41
10k C26
4.7n/10v
C27
0.1u/10v
Idemo
TP_6TestPoint
I-Dem
odulation
C32
10uF/25v
C33
0.1uF/50v
LHB
RHB
C36
10uF/10v
C3747nF/250v
R26
33k
R29
20k
Current Sensor
Vin
OSC
1
OSC
2
C38
10p/10vC
3510p/10v
13
2
4
Y18M
Hz
Vin
2
GND1
Vout
3U4
LDOH
T7550-1
GND
5V
5V
DEM
O0A
P
DEM
O0A
N
DEMO0CX
Vin
PLLCOML
OSC
2OSC
1
Vin
AVDD
AVDD
AVSS
AVSS
VD
D
VSS
Isen
Idemo
LED1
LED2
LED1
LED2
Vr
D6
RB160M
-40
Vr
VrL
R341k
TP_8
TestPoint
Resonant V
oltage Detect
MC
U C
ontrol
Input Power
PC1/D
EMO1A
X1
PC2/D
EMO1C
P2
PC3/D
EMO1C
N3
PC4/D
EMO1C
X4
PC5/STC
K/DEM
O0/A
N5/V
REFI
5
PC6/STP/A
N4/V
REF
6
PA0/A
N0/STPB
/ICPD
A7
PA2/C
TCK/AN2/IC
PCK
8
PB3/D
EMO0A
X24
PB2/D
EMO0A
N23
PB1/D
EMO0A
P22
PB0/O
CP
21
PD2/PTC
K/OSC
120
PD1/PTP/O
SC2
19
PD0/PTPI/IN
T1/SCL/FSK
D18
PC7/IN
T0/SDA/DEM
O1
17
PA7/PWM316 PA6/PWM215 PA5/PWM114 PA4/PWM013 VDD12 VSS11 PA3/AN3/CTPB10 PA1/AN1/CTP/STPI9 PC0/DEMO1AN 32
PB7/DEMO1AP 31
PB6/DEMO0CX 30
PB5/DEMO0CN 29
AVSS 28
PLLCOM 27
AVDD 26
PB4/DEMO0CP 25
Lead0
U3
HT66FW
235032QFN
OCDSC
KOCDSD
A
TP_5
TestPointTP_7TestPoint
FODtem
p
PWM2
PWM0VDDVSSVrL
DEM
O0A
X
DEM
O0C
P
DEM
O0C
N
DetectVinDEMO1AP
DEM
O1A
X
DEMO1AN
DEM
O1C
P
DEM
O1C
XDEM
O1C
NDEM
O0A
PDEM
O0A
NDEM
O0A
X
DEMO0CP
DEMO0CN
J5DC2.1
VSS
C39
2.2nF/50V
R52
10R
C40
2.2nF/50V
R53
10R
GND
GND
G
S D
Q1NC
R59
NC
RS
E2
0.05R
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
R19
100K
C17
NC
R23
NC
C14
100nF/10v
R21
NC
R25
NC
R20
2M
DEM
O1A
N
DEM
O1A
X
DEM
O1C
P
DEM
O1C
N
DEM
O1C
X
R17
NCC
15N
C
TP_3TestPoint
GND
GND
GND
C43
0.1uF/25v
C440.1uF/25v
GND
GND
GND
C41
2.2nF/50V
R54
10R
C42
2.2nF/50V
R55
10R
CsNC
GNDTP_1TestPoint
TP_4TestPoint
TP_9TestPoint
C45
0R
GND
GND
J4GN
D
C460R
R57
NC
R56
NC
5V
GND
D11
SS14
5V
G
S D
Q6
2N7002
R60
NC
5V
G
S D
Q7
2N7002
R61
220R
R62
3R
GND
R63
10K
R64
10K
GND
R65
0R
R66
0RDEM
O1C
P
DEM
O1C
N
DEM
O1C
X
AN5
R68
33k/1%
R67N
C
C47
0.1uF/25v
AN5
LHB
VIN_B
US
VIN_B
US
R69
300k/1%
GND
C48
NC
R70
0R
GND
R71
NC
GND
Q8
SIA453ED
J
R72
10K
R73
10KGND
5VC
3010uF/25v
C34
0.1uF/50v
5V
GND
PWM0
PWM2
R50
3.3K
C29
0.1uF/25v
C31
0.1uF/25v
Driver_en
Driver_en
Driver_en
R51
3.3K
OCSET
1EN
2
VIN 6
EN3
AGND4
PWM
5
VIN 7
VIN
8,9,22,24
LX10,11,16,17,18,25
PGND
12,13,14,15,19
BST
20
PVCC
21V
CC
23
Q9
HT45B
0016
OCSET
1EN
2
VIN 6
EN3
AGND4
PWM
5
VIN 7
VIN
8,9,22,24
LX10,11,16,17,18,25
PGND
12,13,14,15,19
BST
20
PVCC
21V
CC
23
Q10
HT45B
0016
Rev. 1.00 5 March 08, 2018
HT45B0016
Layout Guide
Layout Reference Circuit
ComponentReference:
CVCC 0.1μF/0603
CIN 10μF/0805
CBST 0.1μF/0805
ROCSET 0603
LayoutConsiderations:
1.TheinputcapacitorCINshouldbeplacedasclosetotheVINpinaspossible.ThepowerflowsthroughCINfirstandthenenterstheVINpin.
2.TheinductorshouldbeplacedasclosetotheLXpinaspossibletoreducesystemnoiseinteferenceresultingfromthecopper.
3.Allanalogsignalsshouldbeasfarawayfromthehighvoltageswitching(LX,BST,etc)aspossible.
Rev. 1.00 6 March 08, 2018
HT45B0016
Package Information
Notethat thepackageinformationprovidedhereisforconsultationpurposesonly.Asthis informationmaybeupdatedatregularintervalsusersareremindedtoconsulttheHoltekwebsiteforthelatestversionofthepackageinformation.
Additionalsupplementaryinformationwithregardtopackagingislistedbelow.Clickontherelevantsectiontobetransferredtotherelevantwebsitepage.
• FurtherPackageInformation(includeOutlineDimensions,ProductTapeandReelSpecifications)
• PackingMeterialsInformation
• Cartoninformation
Rev. 1.00 7 March 08, 2018
HT45B0016
SAW Type 23-pin QFN (4mm×4mm×0.8mm) Outline Dimensions
E2
A3b e
A
A1E
D2
E1
D1
LD
3D
4
D
D5
D1
E1
SymbolDimensions in inch
Min. Nom. Max.A 0.028 0.031 0.035
A1 0.000 — 0.002 A3 — 0.008 BSC —b 0.008 0.010 0.012 D 0.156 0.157 0.159 E 0.156 0.157 0.159 e — 0.020 BSC —
D1 — 0.012 BSC —
E1 — 0.012BSC —
D2 0.098 0.102 0.106 E2 0.098 0.102 0.106 D3 0.033 0.035 0.037 D4 0.014 0.016 0.018 D5 0.049 0.051 0.053 L 0.014 0.016 0.018
SymbolDimensions in mm
Min. Nom. Max.A 0.70 0.80 0.90
A1 0.00 — 0.05A3 — 0.20 BSC —b 0.20 0.25 0.30D 3.95 4.00 4.05E 3.95 4.00 4.05e — 0.50 BSC —
D1 — 0.30 BSC —E1 — 0.30 BSC —D2 2.50 2.60 2.70E2 2.50 2.60 2.70D3 0.85 0.90 0.95D4 0.35 0.40 0.45D5 1.25 1.30 1.35L 0.35 0.40 0.45
Rev. 1.00 8 March 08, 2018
HT45B0016
Copyright© 2018 by HOLTEK SEMICONDUCTOR INC.
The information appearing in this Data Sheet is believed to be accurate at the time of publication. However, Holtek assumes no responsibility arising from the use of the specifications described. The applications mentioned herein are used solely for the purpose of illustration and Holtek makes no warranty or representation that such applications will be suitable without further modification, nor recommends the use of its products for application that may present a risk to human life due to malfunction or otherwise. Holtek's products are not authorized for use as critical components in life support devices or systems. Holtek reserves the right to alter its products without prior notification. For the most up-to-date information, please visit our web site at http://www.holtek.com.tw/en/home.