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HA16341NT/FP, HA16342NT/FP
Redundant Secondary Switching Power Supply Controller
REJ03F0148-0400 (Previous: ADE-204-035C) Rev.4.00 Jun 15, 2005
Description
The HA16341NT/FP and the HA16342NT/FP are switching regulator control ICs for the off-line converters of redundant power supplies. The HA16342NT/FP is reverse current detection less version of the HA16341NT/FP. The HA16341NT/FP have the functions of current sharing and hot swap control for redundancy. These functions enable high efficiency and high reliability for switching power supplies. Combination the HA16341 with the HA16141 is suitable for the redundant AC to DC converters.
Features
* * * * * * * * * * * * * * Secondary-side synchronous rectification control Main switching controller Dead-time adjustment for synchronous rectification MOS Current share function with line resistance compensation Hot swap power MOS FET control Remote on/off function, FAIL output function Synchronized switching with primary side Soft start function Maximum duty adjustment Overcurrent limiting, overcurrent shutdown functions Reverse current detection (only the HA16341NT/FP) Light load detection OVP function VCC pin UVL function
Ordering Information
Type No. HA16341NT HA16342NT HA16341FP HA16342FP DP-24TS FP-26DT Package Code
Rev.4.00 Jun 15, 2005 page 1 of 19
HA16341NT/FP, HA16342NT/FP
Pin Arrangement
HA16341NT, HA16342NT (DP-24TS) HA16341FP, HA16342FP (FP-26DT)
CS(+) CS(-) MT CB Cin
SGND PGND PG1 FAIL Trig CT SS
DB
1 2 3 4 5 6 TAB 7 8 9 10 11 12
24 23 22 21 20 19 TAB 18 17 16 15 14 13
CF(+) CF(-) CFo CFB EIN EOUT PGND
CS(+) CS(-) MT CB Cin SGND
PGND PGND
1 2 3 4 5 6
7
26 25 24 23 22 21 20 TAB 19 18 17 16 15 14 (Top view)
CF(+) CF(-) CFo CFB EIN EOUT
PGND
TAB 8 9 10 11 12 13
PGND MF OUT VCC MR OUT PWM OUT HSP Vref
MF OUT VCC MR OUT PWM OUT HSP Vref
PG1 FAIL Trig CT SS
DB
(Top view)
Pin Functions
Pin No. DP-24TS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 TAB 1 2 3 4 5 6 8 9 10 11 12 13 14 15 16 17 18 19 21 22 23 24 25 26 TAB, 7, 20 FP-26DT Symbol CS(+) CS(-) MT CB Cin SGND PG1 FAIL Trig CT SS DB Vref HSP PWM OUT MR OUT VCC MF OUT EOUT EIN CFB CFo CF(-) CF(+) PGND Pin Name Current sense amp input (+) Current sense amp input (-) Current sense amp output Current bus output Line resistance compensation input Signal ground Remote on/off FAIL output (open-drain) External synchronization input Timing capacitance Soft start Dead band Vref (5 V) Hot swap output PWM output MR output Power supply voltage MF output Error amp output Error amp input Current share feedback output Current share differential amp output Current share differential amp input (-) Current share differential amp input (+) Power ground
Rev.4.00 Jun 15, 2005 page 2 of 19
HA16341NT/FP, HA16342NT/FP
Block Diagram
Current share input
Error amp.
CS(+)
+ -
OP1
+
2R
-
+
EIN
CT'
+-
VZ = 1.24V
R
1.25V
CS(-)
R
+ -
Point B 26dB 19R
CT level compression
2R
EOUT
VZ = 6.8V
R
2R
OP1-2
MT
OCL
S Q latch D R Q
+ 0dB -
R
2R 1.25V
R
2R
OP5
- 0dB +
OP6
CFB
CB
+ OP3 -
1.25V
+
OP4
1k
1k
SW2
CF(+)
-
Cin
+ -
OP2
6dB
CS(+)
CF(-)
R
E/IN = 95% comp.
S latch A R Q
SW2 on at HSP Hi
SGND
PG1
R
RS-FF
S2
+ -
+ -
OCL
E/IN 1.187V
from B 1.25V
- +
-12mV
CFo
Start-up latch initial: Hi
20dB
+ -
Light load detector
-
TAB
PGND
to latch B reset
Start-up latch initial: Lo
Reverse current comp.
(only HA16341)
Hi: PWM ON
TAB
+
Hi: 0.7V Lo: 0.5V
10k
90k
PGND
DB generator
Dead Band adjust
Driver
HSP
Driver
16 pulse delay
MF OUT
PWM OUT
Driver
UVL1
VCC
+
-
Vref
UVL2
SS comp.
SS
- +
S1
RS-FF S latch B Q R
Vref
UVL2 Hi: stop
Driver
MR OUT
Vref 5V 169A
OVP
SW1 on: 1.3V SW1 off: 3.4V
PG1
+ -
from Trig
7.5V
DB
CT
100k
128.5k
Vref 5V
+
-
50k
Trig
- +
2.5V
Exit trigger control
Delay
+ -
939A SW1
PG1
Hi: 2.5V Lo: 2.0V
S Q latch C R Q RS-FF
FAIL
Oscillator
FAIL
Unit R: C: F
Rev.4.00 Jun 15, 2005 page 3 of 19
HA16341NT/FP, HA16342NT/FP
Absolute Maximum Ratings
(Ta = 25C)
Ratings Unit Note Supply Voltage VCC 18 V DC output current1 Io1 0.1 A PWM OUT *1 Peak output current1 Iopeak1 1.0 A PWM OUT *2 DC output current2 Io2 0.2 A MF OUT *1 Peak output current2 Iopeak2 2.0 A MF OUT *2 DC output current3 Io3 0.1 A MR OUT *1 Peak output current3 Iopeak3 1.0 A MR OUT *2 DC output current4 Io4 - mA CB OUT DC output current5 Io5 500 A CFB OUT DC output current6 Io6 20 mA FAIL OUT DC output current7 Io7 -5.0 mA Vref OUT Peak output current4 Iopeak4 0.5 A HSP sink DC output current8 Io8 500 A MT OUT DC output current9 Io9 500 A CFo OUT DC output current10 Io10 6 mA EOUT sink TRIG terminal voltage Vtrigmax -1.5 to VCC V CT terminal voltage VCTmax -0.3 to Vref V Vref terminal voltage Vrefmax -0.3 to Vref V SS terminal voltage Vssmax -0.3 to Vref V EIN terminal voltage VEINmax -0.3 to Vref V EOUT terminal voltage VEOUTmax -0.3 to VCC V PG1 terminal voltage VPG1max -0.3 to Vref V FAIL terminal voltage VFAILmax -0.3 to VCC V PWM OUT terminal voltage VoPWMmax -0.3 to VCC V MR OUT terminal voltage VoMRmax -0.3 to VCC V MF OUT terminal voltage VoMFmax -0.3 to VCC V HSP terminal voltage VoHSPmax -0.3 to VCC V CFB terminal voltage VCFBmax -0.3 to Vref V CS(+) terminal voltage VCS(+)max -0.3 to Vref V CS(-) terminal voltage VCS(-)max -0.3 to Vref V MT terminal voltage VMTmax -0.3 to Vref V Cin terminal voltage VCinmax -0.3 to Vref V Notes: 1. VDS = 10 V max. Therefore test condition must be VOH = VCC -10 V or over , VOL = 10 V or under. 2. VDS = 10 V max. Pulse duration 10 ms Item Symbol
Rev.4.00 Jun 15, 2005 page 4 of 19
HA16341NT/FP, HA16342NT/FP
Absolute Maximum Ratings (cont.)
(Ta = 25C)
Item Symbol Ratings Unit Note CF(+) terminal voltage VCF(+)max -0.3 to Vref V CF(-) terminal voltage VCF(-)max -0.3 to Vref V CFo terminal voltage VCFomax -0.3 to Vref V CB terminal voltage VCBmax -0.3 to Vref V DB terminal voltage VDBmax -0.3 to Vref V Maximum power dissipation PT 4.17 W 1 Operating temperature Topr -40 to +105 C Storage temperature Tstg -55 to +150 C Junction temperature Tj 150 C Note: 1. This is allowable value up to Ta = 25C. Derate by j-a = 30C/W above that temperature. j-a = 30C/W is the case that HA16341NT is mounted on 30% wiring density glass epoxy board (105 mm x 76.2 mm x 1.6 mmt) and HA16341FP is mounted on a board which thermal resistance is 23C/W because of j-pin (SOP) = 7C/W typ.
5.0
Maximum Power Dissipation PT (W)
4.5
4.17
4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5
0.0 -50
-30
-10
30 50 70 90 110 10 Ambient Temperature Ta (C)
130
150
170
Rev.4.00 Jun 15, 2005 page 5 of 19
HA16341NT/FP, HA16342NT/FP
Electrical Characteristics
(Ta = 25C, VCC = 12V, PG1 = 3V, Vtrig = 0V, VCS(+) = 0V, VCin = 0V, CCT = 330pF, GvOP1 = 26dB, GvOP4 = 40dB, RDB = 1.8k) * Current share
Item CB output Hi voltage CB output Lo voltage CFB output Lo voltage CFB output typ voltage OP1 input offset voltage CS(+) input bias current CS(-) input bias current Cin input bias current OP4 input resistance Open loop gain OP1-OP6 Band width OP1-OP6 OCL detector threshold voltage Light load detector threshold Hi voltage Light load detector threshold Lo voltage VthLL hysteresis Reverse current detector threshold Hi voltage Symbol VCBH VCBL VCFBL VCFBtyp VioOP1 IibCS(+) IibCS(-) IibCin Rsin Avo BWCS VthOCL VthHLL VthLLL dVthLL VthRC Min 2.5 - - 1.19 - - - - 0.75 (70) - 59.5 (2.0) (1.0) (0.5) -6 Typ - - - 1.25 - -20 0.2 0.2 1.00 80 700 62.5 3.5 2.5 1.0 -12 Max - 25 100 1.31 (1) -30 1.0 1.0 1.25 - - 65.5 (5.0) (4.0) (1.5) -18 Unit V mV mV V mV A A A k dB kHz mV mV mV mV mV CS(+) terminal voltage sensing CS(+) terminal voltage sensing CS(+) terminal voltage sensing CS(+) terminal voltage sensing 1 1 1 3 Test Conditions Iosource = 300A VCS(+) = 1V VCS(+) = 0V, RCB = 10k Iosink = 100A, HSP ON VCS(+) = 0V, VCB = 0.1V VCS(+) = 0V, VCB = 0V RfOP4 = 1k, HSP ON 1 VCS(+) = 0V, VCS(-) = 0V VCS(+) = 0V, VCS(-) = 0V Vcin = 0V 1, 2 1 1 Note
Notes: 1. Design spec. 2. Temperature coefficient is 5400ppm/C. 3. Only HA16341NT/FP.
* Hot swap
Item HSP ON threshold voltage HSP charge current HSP output Lo voltage Symbol VthHSP IcHSP VOLHSP Min 1.14 -7 - Typ 1.19 -10 0.3 Max 1.23 -13 0.6 Unit V A V Test Conditions 95% typ of reference 1.25V VHSP = 5V, VEIN = 2V VEIN = 1V, Iosink = 50mA Note
Rev.4.00 Jun 15, 2005 page 6 of 19
HA16341NT/FP, HA16342NT/FP
Electrical Characteristics (cont.)
(Ta = 25C, VCC = 12V, PG1 = 3V, Vtrig = 0V, VCS(+) = 0V, VCin = 0V, CCT = 330pF, GvOP1 = 26dB, GvOP4 = 40dB, RDB = 1.8k) * Oscillator
Item Typical oscillating frequency Maximum oscillating frequency Typical oscillating temperature stability CT charge current CT discharge current Upper trip point Lower trip point Amplitude Exit trigger Vth Symbol fosctyp foscmax dfosc Ici Icd VthCTH VthCTL dVCT Vthtrig Min 180 400 - -135 616 - - - -0.3 Typ 200 - 5 -169 770 3.4 1.3 2.1 -0.5 Max 220 - - -203 924 - - - -0.7 Unit kHz kHz % A A V V V V -20C < Ta < 85C 1 20% 20% 2 Test Conditions Note 10%
Notes: 1. Design spec. 2. In case of external trigger control, CCT should be changed from 330 pF to 430 pF. At this synchronous and 430 pF CCT condition VthCTH becomes about 2.9 V.
* Vref
Item Reference voltage Line regulation Load regulation Temperature stability Note: 1. Design spec. Symbol Vref Vref-line Vref-load dVref Min 4.9 - - - Typ 5.0 5 5 80 Max 5.1 20 20 - Unit V mV mV ppm/C Test Conditions Iosource = 1mA Iosource = 1mA 12V < VCC < 18V 0 < Iosource < 3mA -20C < Ta < 85C Note 2%
1
* UVL
Item Hi threshold voltage Lo threshold voltage Hysteresis Symbol VH VL dVUVL Min 9.5 8.5 0.6 Typ 10.0 9.0 1.0 Max 10.5 9.5 1.4 Unit V V V Test Conditions Note
Rev.4.00 Jun 15, 2005 page 7 of 19
HA16341NT/FP, HA16342NT/FP
Electrical Characteristics (cont.)
(Ta = 25C, VCC = 12V, PG1 = 3V, Vtrig = 0V, VCS(+) = 0V, VCin = 0V, CCT = 330pF, GvOP1 = 26dB, GvOP4 = 40dB, RDB = 1.8k) * PG1
Item PG1 threshold Hi voltage PG1 threshold Lo voltage Input impedance Note: 1. Design spec. Symbol VthHPG1 VthLPG1 RinPG1 Min 2.4 1.9 (37.5) Typ 2.5 2.0 50.0 Max 2.6 2.1 (62.5) Unit V V k Test Conditions Note
1
* FAIL
Item Leak current Output Lo voltage Symbol IleakFAIL VOLFAIL Min - - Typ - - Max -10 0.5 Unit A V Test Conditions VFAIL = 5V Iosink = 10mA Note
* Error amp.
Item Input threshold voltage Input bias current Open loop gain Band width EOUT sink current EOUT source current EOUT clamp voltage EOUT Lo voltage Note: 1. Design spec. Symbol VthEIN IibEIN AvoEA BWEA IosinkEA IosourceEA VOHEA VOLEA Min 1.23 - 60 (0.7) 0.5 -100 5.8 - Typ 1.25 -0.2 80 1.4 5.0 -250 6.8 - Max 1.27 -2.0 - - - - 7.8 1.0 Unit V A dB MHz mA A V V Test Conditions VEOUT = 1.25V VEIN = 2V 1 VEIN = 1.5V, EOUT = 1.1V VEIN = 1.0V, EOUT = 5V VEIN = 1.0V VEIN = 1.5V, Iosink = 200A Note 1.6%
* PWM OUT
Item Output Lo voltage Output Hi voltage Rise time Fall time Maximum duty Minimum duty Note: 1. Design spec. Symbol VOLPWM VOHPWM trPWM tfPWM Dmax Dmin Min - VCC-0.4 20 20 58 - Typ 0.2 VCC-0.2 50 50 65 - Max 0.4 - 100 100 72 0 Unit V V ns ns % % Test Conditions Iosink = 100mA Iosource = 100mA CL = 3300pF CL = 3300pF VSS = 4V, VEIN = 1.0V VSS = 4V, VEIN = 1.5V Note
Rev.4.00 Jun 15, 2005 page 8 of 19
HA16341NT/FP, HA16342NT/FP
Electrical Characteristics (cont.)
(Ta = 25C, VCC = 12V, PG1 = 3V, Vtrig = 0V, VCS(+) = 0V, VCin = 0V, CCT = 330pF, GvOP1 = 26dB, GvOP4 = 40dB, RDB = 1.8k) * MR OUT
Item Output Lo voltage Output Hi voltage Rise time Fall time Symbol VOLMR VOHMR trMR tfMR Min - VCC-0.4 20 20 Typ 0.2 VCC-0.2 50 50 Max 0.4 - 100 100 Unit V V ns ns Test Conditions Iosink = 100mA Iosource = 100mA CL = 3300pF CL = 3300pF Note
* MF OUT
Item Output Lo voltage Output Hi voltage Rise time Fall time Symbol VOLMF VOHMF trMF tfMF Min - VCC-0.4 20 20 Typ 0.2 VCC-0.2 50 50 Max 0.4 - 100 100 Unit V V ns ns Test Conditions Iosink = 200mA Iosource = 200mA CL = 6000pF CL = 6000pF Note
* Dead band time
Item Dead band time1 Dead band time2 MR to MF delay time PWM to MR delay time MR delay time Maximum Dead band adjust time1 Maximum Dead band adjust time2 Note: Symbol Td1typ Td2typ t1 t2 t3 Tdadj1 Tdadj2 Min 0 0 (-20) (-20) - - - Typ 50 100 - - 1 Td1typ +300 Td2typ +600 Max 100 200 (50) (50) - - - Unit ns ns ns ns s ns ns Test Conditions RDB = 1.8k RDB = 1.8k t1 = MF off - MR on t2 = MR off - PWM off t3 = CT low trip point - MR on RDB = 47k RDB = 47k Note
1 1 1 1 1
1. Design spec. Measurement is 50% slice point.
Rev.4.00 Jun 15, 2005 page 9 of 19
HA16341NT/FP, HA16342NT/FP
Electrical Characteristics (cont.)
(Ta = 25C, VCC = 12V, PG1 = 3V, Vtrig = 0V, VCS(+) = 0V, VCin = 0V, CCT = 330pF, GvOP1 = 26dB, GvOP4 = 40dB, RDB = 1.8k) * SS
Item SS sink current Symbol Idss Min 500 Typ - Max - Unit A Test Conditions PG1 = 2V, VSS = 2V Note
* OVP
Item OVP latch voltage Symbol VOVP Min 6.5 Typ 7.5 Max 8.5 Unit V Test Conditions Note
* Current consumption
Item Operating current Standby current Symbol ICC ISTBY Min 5.4 - Typ 7.4 200 Max 9.4 600 Unit mA A Test Conditions VCT = 1V VCC = 8V, PG1 = 0V Note
Rev.4.00 Jun 15, 2005 page 10 of 19
HA16341NT/FP, HA16342NT/FP
Timing Chart 1 (Total)
UVL1 Hi 10.0V typ 0V
VCC
UVL1 Lo 9.0V typ
Vref (5V typ) 0V PG1 (by switch) 0V 3V ON
UVL2 threshold 4.6V typ
OFF
ON
UVL2 (internal) 0V
SS 0V VthCTH: 3.4V typ CT VthCTL: 1.3V typ 0V OUT (PWM) 0V 1.25V (100%) 1.187V (95%) EIN 0V
Note 1
OUT (HSP) 0V Note: 1. The output of PWM, MR and MF do not appear in the first period of CT cycle due to start-up latch circuit.
Rev.4.00 Jun 15, 2005 page 11 of 19
HA16341NT/FP, HA16342NT/FP
Timing Chart 2 (Hot Swap)
Vref 0V
3V PG1 0V Internal latch signal (inverting) (OVP, OCL or Reverse current) : Node S1 in Block Diagram 0V
SET
RESET
UVL2 (internal) 0V
1.25V (100%) 1.187V (95%)
EIN 0V
Internal latch signal : Node S2 in Block Diagram 0V
HSP out 0V
Gate charging by 10A source current
Gate discharging by 0.5A max sink current
Note: Reverse current is HA16341NT/FP only.
Rev.4.00 Jun 15, 2005 page 12 of 19
HA16341NT/FP, HA16342NT/FP
Timing Chart 3 (Dead Band Control)
VSS
CT
PWM OUT
MR OUT
MF OUT Td1
Td2
t1
t2
t3
Note: VSS determines maximum duty. This waveform example shows the case of EIN = Lo. VSS: Voltage of SS pin
800 700 600
Td1, Td2 (ns)
Td1 Td2
Vref
RDB HA16341 DB
500 400 300 200
100
0
0
10
20
30
40
50
RDB (k)
Rev.4.00 Jun 15, 2005 page 13 of 19
HA16341NT/FP, HA16342NT/FP
Timing Chart 4 (Soft Start)
VthCTH: 3.4V Note *
CT
SS
CT SS
VthCTL: 1.3V
OUT (PWM)
Note: Self-oscillation: VthCTH = 3.4V typ Synchronized operation: VthCTH = 2.9V typ Case VHSS VthCTH Maximum duty would be the value specified in page 9. Case VHSS < VthCTH Maximum duty decrease to the corresponding value. Please refer to formula 1 as design value of maximum duty. Max duty = (tss - 0.63s - Td1) x Operating frequency Formula 1 C tss = CT (VHSS - VthCTL) Ici : CT charge current Ici : CT terminal capacitor CCT VthCTH : CT upper trip point VthCTL : CT lower trip point Select values R1, R2 and C1 for suitable maximum duty and SS time constant. Vref (5V) R1 C1 R2 HA16341 SS
VHSS =
R2 Vref (5V) R1 + R2
SS C R1 R2 R1 + R2 Figure A. SS Terminal Application
Rev.4.00 Jun 15, 2005 page 14 of 19
HA16341NT/FP, HA16342NT/FP
Timing Chart 5 (External Trigger Control)
Primary IC oscillation
0V
Primary IC AUX-OUT
0V
Trigger input (Trig terminal)
0V Trigger Vth Vtrig: -0.5V typ
Trigger detector internal signal
0V
VthCTH = about 2.9V @CCT = 430pF
Secondary oscillation 0V
This IC is triggered by negative pulse. R1 and R2 must be calculated including internal impedance of 230k.
Primary
Secondary
Vref (5V)
R1
230k
Trig
HA16341
Primary IC AUX-OUT
R2
Figure B. External Trigger Application
Rev.4.00 Jun 15, 2005 page 15 of 19
HA16341NT/FP, HA16342NT/FP
Timing Chart 6 (Duty Control)
CT' + Vo OP1-2 (internal)
300mV
CT' + Vo OP1-2
1/3x(EOUT-2VBE)
1/3x(EOUT-2VBE) (internal)
OUT (PWM)
CT 5.33 The amplitude of CT' is 300mV typ at synchronous operation with trigger frequency as 200kHz and CCT = 430pF.
CT' =
1.3 1.24 1.2 1.1 1.0 0.9 0.8
1/3x(EOUT-2VBE) 1.24V clamp
Duty control area
No output area
in case of 50% max duty
0.7
Vo OP1-2 (V)
0.6 0.5 0.4 300mV 0.3 0.2 0.1 0 0
Max duty area
1.54V
2.44V
5.26V
0.3 0.6 0.9 1.2 1.5 1.8 2.1 2.4 2.7 3.0 3.3 3.6 3.9 4.2 4.5 4.8 5.1 5.4 5.7
VEOUT (V)
Rev.4.00 Jun 15, 2005 page 16 of 19
HA16341NT/FP, HA16342NT/FP
Timing Chart 7 (Current Limitting)
1/3x(EOUT-2VBE) = 1.24V clamped (internal)
CT' + Vo OP1-2 300mV (internal)
OUT (PWM)
CT 5.33 The amplitude of CT' is 300mV typ at synchronous operation with trigger frequency as 200kHz and CCT = 430pF.
CT' =
70 60
PWM ON Duty (%)
50 40 30 20 10 0 20 CCT = 430pF, RDB = 1.8k, VHSS = 4V Synchronized operation with 200kHz 30
40
50
60
70
CS(+) (mV)
Rev.4.00 Jun 15, 2005 page 17 of 19
HA16341NT/FP, HA16342NT/FP
Timing Chart 8 (Interface with Primary Control IC)
Vref
PG1 (from primary IC)
Internal latch signal (inverting) (OVP, OCL or Reverse current) : Node S1 in Block Diagram
SET
RESET
UVL2 (internal signal)
OUT (PWM)
FAIL (to primary IC)
Note: Reverse current is HA16341NT/FP only.
Rev.4.00 Jun 15, 2005 page 18 of 19
HA16341NT/FP, HA16342NT/FP
Package Dimensions
As of January, 2003
Unit: mm
27.10 28.10 Max 24 13
8.8 10.0 Max
1
1.0
1.5 Max
12
5.06 Max
10.16
0.51 Min
2.54 Min
1.78 0.25
4.04 0.20
0.48 0.10
0.25 - 0.05
1 - 13
+ 0.10
Package Code JEDEC JEITA Mass (reference value)
DP-24TS - - 2.04 g
As of January, 2003
18.4 19.2 Max
26 14
Unit: mm
3.0 Max
*0.32 0.07 0.30 0.05
1
1.20 Max
13
8.3
10.93
+ 0.15 - 0.25
1.315
2.8 3.6
0.10 - 0.10
+ 0.15
0.80
0 - 8
0.70 - 0.20
+ 0.15
*0.37 0.08 0.35 0.06
0.16 M
0.10
*Dimension including the plating thickness Base material dimension
Package Code JEDEC JEITA Mass (reference value)
FP-26DT - - 0.98 g
Rev.4.00 Jun 15, 2005 page 19 of 19
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Price & Availability of HA16342FP

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