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HA16141P/FP, HA16142P/FP
PFC and PWM Controller
ADE-204-036D (Z) Preliminary Rev. 4 Sep. 2001 Description
The HA16141P/FP and the HA16142P/FP are power supply controller ICs combining an AC-DC converter switching controllers for power factor correction and off-line power supply switching controllers. PFC (Power factor correction) section employs average current mode PWM and off-line power supply control section employs peak current mode PWM. The HA16142P/FP is the change version of HA16141P/FP's PWM maximum on duty cycle. The PFC operation can be turned on and off by external control signal. Use of this on/off function makes it possible to disable PFC operation at a low line voltage, or to perform remote control operation from the transformer secondary side. The PFC power supply boosted output voltage is not only fed to an error amplifier input signal but also fed to as the boost voltage monitor circuit. PG signal is put out if the boost voltage is out-of-spec. The PWM controller, which begins operation at the same time as release of the IC's UVLO (under-voltage lockout) is suitable for auxiliary power supply use in a multi-output power supply system.
Features
* Synchronized PFC and PWM timing * Self oscillation with fixed frequency PFC : 100 kHz (15 %) PWM : 200 kHz (15 %) * PFC function on/off control * PFC boosted output voltage monitor * High-output current gate drivers PFC driver peak current : 1.5 A typ. PWM driver peak current : 1.0 A typ. * PWM maximum on duty cycle 72% min (HA16141P/FP) 49.5% max (HA16142P/FP)
HA16141P/FP, HA16142P/FP
Pin Arrangement
GND PWM-OUT PFC-OUT VCC VREF
1 2 3 4 5 6 7 8 (Top view)
16 15 14 13 12 11 10 9
PWM-CS PWM-EO O.C PFC-EO TIM PFC-FB IAC PFC-ON
PG
CAO PFC-CS
Pin Description
Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Symbol GND PWM-OUT PFC-OUT VCC VREF PG CAO PFC-CS PFC-ON IAC PFC-FB TIM PFC-EO O.C PWM-EO Function Ground Power MOS FET driver output (PWM control) Power MOS FET driver output (PFC control) Supply voltage Reference voltage Power Good signal output (open-drain output) Average current control error amp. output PFC control current sense signal input PFC function on/off signal input Multiplier reference current input PFC control error amp. input Overcurrent timer time setting PFC control error amp. output Overcurrent detector signal input PWM control error amp. output (photocoupler input also possible) (HA16141 only) PWM control feedback voltage signal input (HA16142 only) 16 PWM-CS PWM control current sense signal input
Rev.4, Sep. 2001, page 2 of 18
HA16141P/FP, HA16142P/FP
Block Diagram
PFC-EO 13 IAC 10 PFC-CS 8 CAO 7 VCC 4 UVLO 2.7k 2.5V Multiplier -0.5V PFC-CLIMIT PFC Control PFC-CAMP Gain Selector PFC-ON 9 PFC/PWM Supervisor VCC VCC HA16141 only 5R 100kHz 1 GND Oscillator 200kHz PWM-VAMP 2.5V PWM Control 1.0A 2 PWM-OUT VREF 1.5A 3 PFC-OUT 5 VREF
PFC-VAMP PFC-FB 11
RES LATCH
O.C 14
Over Current Det.
Integrator
R
16 PWM-CS 12 TIM 6 15 PWM-EO
2/
Rev.4, Sep. 2001, page 3 of 18
HA16141P/FP, HA16142P/FP
System Diagram
Rec+ 1.8m Q1 + 470 (600V) 570k (1/2W) + 4.7 From Q2 drain B+ T1 To PFC-FB 710k VRB 4.7k GND B+ OUT (385V dc)
Rec-
From PFC-OUT
VCC
Oscillator 200kHz 5s VREF 500ns 820k 10s 0.65V 3.4V 100kHz 1s (HA16141) 2.3s (HA16142) PWM-RES PFC-DT RAMP UVL CT 22.2V H L UVLO 5V VREF Generator 0.1 VREF H GOOD L VREF GOOD 5V Internal Bias
VREF
36k 3.3n 220p
CAO
IMO = K {IAC x (VEO - 1V)}
IAC
IAC VEO K
910k
IMO 2.7k
- +
VREF
- +
-0.5V 55k
R Q S R Gate Driver 1.5A(PEAK)
PFC -OUT
To Q1 gate
100 0.1 (5W)
PFC -CS
10n
PFC-CAMP
+ -
PFC-CLIMIT
Q S
To T1 Gate Driver 1A(PEAK)
K = 0.25 750k
PWM -OUT
1 (1W)
PFC -EO
47n
K = 0.05
PWM-RES
R Q S
PFC-VAMP
2.5V
4.7n
PFC -FB
From VRB(B+monitor)
+ -
- + Gain Selector Supervisor
3.83V 3.63V
VCC
5RB
PWM-VAMP
RB
HA16141 only
- +
2.5V
PWM -EO
51k 0.47 1n
2R +B HIGH
x1
720k
+ -
2.75V 2.60V
- +
R
External parts of PWM-EO pin are applies to HA16141 only.
- +
2.2 33k 51k 0.1
+B LOW
Over Current Detector + -
1V
PWM -CS
0.1
PFC -ON
O.C + -
0.3V 0.1 (1W) Current Monitor
- +
1.5V 1.2V VREF GOOD
2.34V 1.70V PFC-OFF
Latch Block
PWM-OFF S Q R LOGIC LOGIC 3V 26.2
VREF 5.1k Enable to secondary
+ - - +
5V 4V VCC 7.1V 38.2
TIM Integrator
5.2 1n
PG
Circuit Ground Level
R Q S
+ -
2.5V
GND
Unit R: C: F
Note: The constants for the external components are for reference. Please confirm the operation when designing the system.
Rev.4, Sep. 2001, page 4 of 18
HA16141P/FP, HA16142P/FP
Absolute Maximum Ratings
(Ta = 25C)
Item Supply voltage Peak PFC-OUT current Peak PWM-OUT current DC PFC-OUT current DC PWM-OUT current Terminal voltage CAO voltage PFC-EO voltage PWM-EO voltage PFC-ON voltage IAC voltage IAC current PFC-CS voltage TIM voltage VREF current PG voltage PG current Power dissipation Operating temperature Storage temperature Junction temperature Notes: 1. 2. 3. 4. 5. 6. Symbol VCC Ipk-pfc Ipk-pwm Idc-pfc Idc-pwm Vi-group1 Vi-group2 Vcao Vpfc-eo Vpwm-eo Vpfc-on Vi-ac Ii-ac Vi-cs Vi-tim Io-ref Vo-pg Io-pg PT Topr Tstg Tj Rating 20 1.5 1.0 0.15 0.10 -0.3 to VCC -0.3 to Vref -0.3 to Veoh-ca -0.3 to Veoh-pfc -0.3 to Veoh-pwm -0.3 to +7 -0.3 to +5 0.8 -1.5 to +0.3 -0.3 to +6 -20 -0.3 to +7 15 1 -40 to +105 -55 to +150 150 Unit V A A A A V V V V V V V mA V V mA V mA W C C C 6 4 5 3 3 Note
Rated voltages are with reference to the GND pin. For rated currents, inflow to the IC is indicated by (+), and outflow by (-). Shows the transient current when driving a capacitive load. Group1 is the rated voltage for the following pins: PFC-OUT, PWM-OUT Group2 is the rated voltage for the following pins: VREF, PFC-FB, PWM-CS This is the value when the ambient temperature (Ta) is 25C or below. If Ta exceeds 25C, the graph below applies. For the SOP package, this value is based on actual measurements on a 10% wiring density glass epoxy circuit board (40 mm x 40 mm x 1.6 mm).
Maximum power dissipation PT (W)
25C 1 105C
0.5
-8mW/C
0
-40
0
50 100 Ambient temperature Ta (C)
150
Rev.4, Sep. 2001, page 5 of 18
HA16141P/FP, HA16142P/FP
Electrical Characteristics
(Ta = 25C, VCC = 14 V)
Item Supply Start threshold Shutdown threshold UVLO hysteresis Start-up current Is temperature stability Operating current Latch current Shunt zener voltage Vz temperature stability PFC-OUT Minimum duty cycle Maximum duty cycle Rise time Fall time Peak current Low voltage Symbol VH VL dVUVL IS dIS/dTa ICC ILATCH VZ dVZ/dTa Dmin-pfc Dmax-pfc tr-pfc tf-pfc Ipk-pfc Vol1-pfc Vol2-pfc Vol3-pfc High voltage Voh1-pfc Voh2-pfc PWM-OUT Minimum duty cycle Maximum duty cycle Dmin-pwm Min 12.2 9.4 2.6 150 4 230 21.2 90 13.5 12.6 Typ 13.0 10.0 3.0 200 -0.3 7 310 22.2 +4 95 30 30 1.5 0.05 0.35 0.03 13.9 13.3 80 46 30 30 1.0 0.05 0.5 0.03 13.9 13.0 5.0 5 5 80 Max 13.8 10.6 3.4 300 9 375 23.2 0 98 100 100 0.2 1.4 0.7 0 88 49.5 100 100 0.2 2.0 0.7 5.1 20 20 Unit V V V A %/C mA A V mV/C % % ns ns A V V V V V % % % ns ns A V V V V V V mV mV ppm/C VCC = 12V *1 IAC = 100A, CL = 0F VCC = 9V ICC = 14mA ICC = 14mA *1 CAO = 3.6V CAO = 0V CL = 1000p CL = 1000p CL = 0.01F *1 Iout = 20mA Iout = 200mA Iout = 10mA, VCC = 5V Iout = -20mA Iout = -200mA PWM-EO = 1.3V PWM-CS = 0V PWM-EO = 5V PWM-CS = 0V *2 PWM-EO = 5V PWM-CS = 0V *3 CL = 1000p CL = 1000p CL = 0.01F *1 Iout = 20mA Iout = 200mA Iout = 10mA, VCC = 5V Iout = -20mA Iout = -200mA Isource = 1mA Isource = 1mA VCC = 12V to 18V Isource = 1mA to 20mA Ta = -40 to 105C *1 Test Conditions
Dmax-pwm 72 42.5
Rise time Fall time Peak current Low voltage
tr-pwm tf-pwm Ipk-pwm Vol1-pwm Vol2-pwm Vol3-pwm
13.5 12.0 4.9
High voltage
Voh1-pwm Voh2-pwm
VREF
Output voltage Line regulation Load regulation Temperature stability
Vref Vref-line Vref-load dVref
Note:
1. Design spec. 2. Apply to HA16141. 3. Apply to HA16142.
Rev.4, Sep. 2001, page 6 of 18
HA16141P/FP, HA16142P/FP
Electrical Characteristics
(Ta = 25C, VCC = 14 V) (cont.)
Item Oscillator Initial accuracy Symbol fpwm fpfc fpwm temperature stability fpwm voltage stability Ramp peak voltage Ramp valley volatge PFC-ON PFC on voltage PFC off voltage PFC on-off hysteresis Input current Supervisor/ PG PFC GOOD threshold voltage PFC FAIL threshold voltage +B High PFC inhibit voltage +B High PFC restart voltage PG leak current PG shunt current Delay to PG O.C O.C threshold voltage (Over Current PWM-CS threshold Detector) voltage O.C input current Integrator Sink current Source current O.C trigger Source Current PWM-CS trigger Integrated time O.C trigger Integrated Time PWM-CS trigger dfpwm/dTa fpwm(line) Vramp-H Vramp-L Von-pfc Voff-pfc dVon-off Ipfc-on Vb-good Vb-fail Vb-h Vb-res Ioff-pg Ion-pg tg-pg VOC VCS IOC Isnk-tim Isrc-tim1 Isrc-tim2 t-tim1 Min 170 85 -1.5 1.3 1.0 0.15 2.29 1.66 2.69 2.54 5 0.27 0.9 3.9 -16 -25 88 Typ 200 100 0.1 +0.5 3.4 0.65 1.5 1.2 0.30 0.1 2.34 1.70 2.75 2.60 0.001 15 0.2 0.30 1.0 -0.1 5.2 -21 -33 110 Max 230 115 +1.5 3.6 1.7 1.4 0.45 1.0 2.39 1.74 2.81 2.66 1.0 1 0.33 1.1 -1.0 6.5 -26 -41 132 Unit kHz kHz %/C % V V V V V A V V V V A mA s V V A A A A s O.C = 0V TIM = 2V TIM = 2V, O.C = 0.5V *1 TIM = 2V, PWM-CS = 2V *1 Step signal (0 to 1V) to O.C, Ctim = 1000p, Measured pin: PG Step signal (0 to 2V) to PWM-CS, Ctim = 1000p, Measured pin: PG PFC-ON = 2V Input pin: PFC-FB Input pin: PFC-FB Input pin: PFC-FB Input pin: PFC-FB PG = 5V PG = 3V *2 Step signal (5 to 0V) to PFC-ON *1 Test Conditions Measured pin: PWM-OUT Measured pin: PFC-OUT Ta = -40 to 105C *1 VCC = 12V to 18V
t-tim2
53
67
81
s
Notes: 1. Design spec. 2. Maximum rating of PG current is 15 mA. Use series resistor to limit PG current lower than 15 mA.
Rev.4, Sep. 2001, page 7 of 18
HA16141P/FP, HA16142P/FP
Electrical Characteristics
(Ta = 25C, VCC = 14 V) (cont.)
Item Latch Threshold voltage for PFC stop Threshold Voltage for PWM stop Latch Reset Voltage PWM-VAMP Feedback VCC voltage Open loop gain High voltage Low voltage Source current Sink current Transconductance respect to VCC PWM current Delay to output sense PFC current limit PFC-VAMP Threshold voltage Delay to output Feedback voltage Input bias current Open loop gain High voltage Low voltage Source current Sink current Transconductance Symbol Vlch-pfc Vlch-sys Vcc-res Vfb-pwm Av-pwm Veoh-pwm Veol-pwm Isrc-pwm Isnk-pwm Gm-pwm td-cs VLM td-LM Vfb-pfc Ifb-pfc Av-pfc Veoh-pfc Veol-pfc Isrc-pfc Isnk-pfc Gm-pfcv Min 2.4 3.8 6.1 14.2 5.1 19 -0.47 2.45 -0.30 5.1 -62 62 120 Typ 2.5 4.0 7.1 14.8 45 5.7 0.1 -77 77 27 210 -0.50 280 2.50 -0.07 65 5.7 0.1 -77 77 160 Max 2.6 4.2 8.1 15.4 6.3 0.3 35 300 -0.53 500 2.55 +0.30 6.3 0.3 -93 93 200 Unit V V V V dB V V A A A/V ns V ns V A dB V V A A A/V PFC-CS = 0 to -1V PFC-EO = 2.5V Measured pin: PFC-FB *1 PFC-FB = 2.3V, PFC-EO: Open PFC-FB = 2.7V, PFC-EO: Open PFC-FB = 1.0V, PFC-EO = 2.5V PFC-FB = 4.0V, PFC-EO = 2.5V PFC-FB = 2.5V, PFC-EO = 2.5V PWM-EO = 2.5V *2 *1, *2 VCC = 14V, PWM-EO: Open VCC = 16V, PWM-EO: Open *2 *1 VCC = 11V *1 VCC = 18V *2 VCC = 15V, PWM-EO = 2.5V *2 PWM-EO = 5V, PWM-CS = 0 to 2V Test Conditions Input pin: TIM Input pin: TIM
Note:
1. Design spec. 2. Apply to HA16141.
Rev.4, Sep. 2001, page 8 of 18
HA16141P/FP, HA16142P/FP
Electrical Characteristics
(Ta = 25C, VCC = 14 V) (cont.)
Item PFC-CAMP Input offset voltage Open loop gain High voltage Low voltage Source current Sink current Transconductance IAC/ Multiplier IAC PIN voltage Terminal offset current Output current (PFC-ON = 3.4V) Symbol Vio-ca Av-ca Veoh-ca Veol-ca Isrc-ca Isnk-ca Gm-pfcc Viac Imo-offset Imo1 Imo2 Output current (PFC-ON = 3.9V) Imo3 Imo4 PFC-CS resistance Gain selector Threshold voltage for K = 0.05 Threshold voltage for K = 0.25 VK hysteresis voltage Rmo VK-H VK-L dVK Min 5.1 120 0.7 -56 3.71 3.51 0.15 Typ 7 65 5.7 0.1 -77 77 160 1.0 -75 -25 -75 -5 -15 2.7 3.83 3.63 0.20 Max 6.3 0.3 200 1.3 -94 3.95 3.75 0.25 Unit mV dB V V A A A/V V A A A A A k V V V *1 CAO = 2.5V *1 CAO = 2.5V *1 *1 IAC = 100A IAC = 0A, PFC-CS = 0V, Measured pin: PFC-CS PFC-EO = 2V, IAC = 100A *1, *2 PFC-EO = 4V, IAC = 100A *1, *2 PFC-EO = 2V, IAC = 100A *1, *2 PFC-EO = 4V, IAC = 100A *1, *2 *1 Test Conditions *1 *1
Notes: 1. Design spec. 2. Imo1 to Imo4 are defined as, Imo = (PFC-CS Terminal Current) - (Imo-offset)
Imo = K {IAC x (VEO - 1V)}
IAC
IAC
VEO K
Imo
2.7k
- +
VREF
- +
-0.5V 55k
PFC-CAMP
PFC-CS
PFC-CS Terminal Current Imo-offset
+ -
PFC-CLIMIT
Rev.4, Sep. 2001, page 9 of 18
HA16141P/FP, HA16142P/FP
Internal Timing
1. UVLO
13V VCC 5V VREF 4.6V 0V VREF GOOD (internal signal) System Enable 0V
10V
2. Oscillator, Gate driver output
3.2V Reference triangle wave CT 200 kHz (internal signal) 1.6V PWM-RES (internal signal) PFC-DT (internal signal) PFC triangle wave Ramp 100 kHz (internal signal) PFC current amp. output CAO PWM current sense PWM-CS 3.4V
0.65V PWM voltage feedback (internal signal)
PWM-OUT (Trailing Edge control)
PFC-OUT (Leading Edge control)
Note: All numeric values in the figure are typical values.
Rev.4, Sep. 2001, page 10 of 18
HA16141P/FP, HA16142P/FP
3. PFC controller status
Precondition: VREF GOOD, Non latched. 1.5V 1.2V 1.5V 1.2V
PFC-ON
2.75V PFC-FB 2.34V
2.60V 2.34V 1.70V
PG
PFC-OUT
PFC pulses stopped by PFC-ON, and PG signal high PFC pulses stopped due to high PFC-FB voltage PG signal high due to low PFC-FB voltage (overshoot prevention) PFC pulses stopped by PFC-ON, and PG signal high
PFC pulses stopped by PFC-ON, and PG signal high
PG signal high due to low PFC-FB voltage
Normal operation
Normal operation
Normal operation
Normal operation
Notes: 1. All numeric values in the figure are typical values. 2. PFC-ON The HA16141P/FP can perform on/off control of the PFC function using the PFC-ON pin. If an AC voltage that has undergone primary rectification and has been divided with an external resistance is input, PFC stoppage is possible in the event of a low input voltage. On/off control by means of a logic signal is also possible. 3. PFC-FB The input to this pin is the voltage obtained by dividing the stepped-up PFC output voltage. The pin voltage is fed back to the PFC control system, and is also used for step-up voltage logic decisions. This is outlined in the figure below. PFC-OUT pulse stoppage (Reduction of step-up voltage overshoot) 2.60V
Hysteresis 2.75V Feedback voltage 2.50V
PG (Power Good) signal is output
2.34V Hysteresis 1.70V (Note 3 is continued on the next page)
Rev.4, Sep. 2001, page 11 of 18
HA16141P/FP, HA16142P/FP
3. PFC controller status (cont.)
Notes: 3. PFC-FB (cont.) The actual input voltage to the PFC-FB pin is the step-up voltage divided with a resistance (see figure below). If R1 is set as 710 kW and R2 as 4.7 kW, the decision voltage at the step-up pin (+B) is as shown in the figure below.
+B
R1
710kW PFC-FB PFC-VAMP
-
To Multiplier
+
R2
4.7kW
2.5V PFC-EO
Precondition: VREF GOOD, PFC-ON, Non latched. 418V Step-up voltage +B 356V 259V
395V 380V (Typical Output Voltage)
2.75V PFC-FB 2.34V
2.60V 2.5V (PFC Feedback Voltage) 1.70V
PG
Power Good Period
PFC-OUT
Notes: 4. All numeric values in the figure are typical values.
Rev.4, Sep. 2001, page 12 of 18
HA16141P/FP, HA16142P/FP
4. PFC-ON pin
The following functions are effected by inputting an AC voltage that has undergone primary rectification and has been divided with an external resistance to the PFC-ON pin (see figure below). a) Turning PFC operation off when AC voltage is low b) Switching multiplier gain with AC 100 V system and 200 V system input
Em
Rec+
3.83V R1 720kW PFC-ON 3.63V
+
Switching Multiplier Gain
2.2mF R2 20kW 1.5V 1.2V PFC-ON(dc) = 2 =2
+
PFC-ON/OFF Control
x Em / p x R2 / (R1 + R2) x (O2) x Vac / p x R2 / (R1 + R2)
Precondition: VREF GOOD, Non latched.
AC voltage Vac
157Vac
149Vac
62Vac 0Vac
49Vac
3.83V PFC-ON 1.5V 0V
3.63V
1.2V
PFC Status (internal status)
ON PFC-ON Period OFF
Multiplier gain (internal status)
0.25
0.05 Note: All numeric values in the figure are typical values.
Rev.4, Sep. 2001, page 13 of 18
HA16141P/FP, HA16142P/FP
5. Integrator (OC detection operation)
PWM-RES (internal signal)
O.C (overcurrent detection input)
0.3V 5.2A
TIM pin current (integral output current)
0 -21A
3V
2.5V
TIM pin voltage (integral output voltage)
0.2V
t-tim1 LATCH STATUS (for PFC-STOP)
PFC Stop
PFC Enable
LATCH STATUS (for PWM-STOP)
PWM Enable
Note: Timer time calculation equation Timer time t-tim1 is the time until PG pin inversion (from low to high) after the O.C pin trigger. t-tim1 can be set using the following approximate equation. t-tim1 = -Ctim (Vlch - pfc - 0.2V) / Isrc - tim1 = -Ctim (2.5V - 0.2V) / (-21A) Typical calculation
Rev.4, Sep. 2001, page 14 of 18
HA16141P/FP, HA16142P/FP
6. Integrator (PWM-CS detection operation)
PWM-RES (internal signal)
PWM-CS (current sense input)
1V 5.2A
TIM pin current (integral output current)
0 -33A
4V
2.5V
TIM pin voltage (integral output voltage)
0.2V
t-tim2 LATCH STATUS (for PFC-STOP)
PFC Stop
PFC Enable PWM Stop
LATCH STATUS (for PWM-STOP)
t-tim2' PWM Enable
Note: Timer time calculation equation Timer time t-tim2 is the time until PG pin inversion (from low to high) after the PWM-CS pin trigger. t-tim2 can be set using the following approximate equation. t-tim2 = -Ctim (Vlch - pfc - 0.2V) / Isrc - tim2 = -Ctim (2.5V - 0.2V) / (-33A) Typical calculation The time at which both the PFC and PWM functions are stopped by this timer can be calculated using the following approximate equation. t-tim2' = 1.65 t - tim2 Typical calculation
Rev.4, Sep. 2001, page 15 of 18
HA16141P/FP, HA16142P/FP
Mark Pattern
1, 2: Lot indication Control code Ejector pin
123 HA16141P (HA16142P)
Ejector pin Type code
Notes: 1. Example of lot indication. For example, a product manufactured in May 2000 has the markings "0E" in positions 1 2 in the above figure.
Production Month May Year 2000 Indication 1 0 2 E
Month Code
Jan A
Feb B
Mar C
Apr D
May E
Jun F
Jul G
Aug Sep H J
Oct K
Nov Dec L M
2. Laser marking is used.
Rev.4, Sep. 2001, page 16 of 18
HA16141P/FP, HA16142P/FP
Package Dimensions
As of January, 2001
Unit: mm
9
7.40 Max 6.30
19.20 20.00 Max 16
1 1.3
1.11 Max
8
0.51 Min
2.54 Min 5.06 Max
7.62
2.54 0.25
0.48 0.10
0.25 - 0.05 0 - 15
Hitachi Code JEDEC EIAJ Mass (reference value)
+ 0.13
DP-16 Conforms Conforms 1.07 g
As of January, 2001
10.06 10.5 Max 16 9
Unit: mm
1
*0.22 0.05 0.20 0.04
8
0.80 Max
5.5
0.20 7.80 + 0.30 -
2.20 Max
1.15
1.27
0.10 0.10
0 - 8
0.70 0.20
*0.42 0.08 0.40 0.06
0.15
0.12 M
Hitachi Code JEDEC EIAJ Mass (reference value) FP-16DA -- Conforms 0.24 g
*Dimension including the plating thickness Base material dimension
Rev.4, Sep. 2001, page 17 of 18
HA16141P/FP, HA16142P/FP
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Hitachi Semiconductor (America) Inc. 179 East Tasman Drive San Jose,CA 95134 Tel: <1> (408) 433-1990 Fax: <1>(408) 433-0223 Hitachi Europe Ltd. Electronic Components Group Whitebrook Park Lower Cookham Road Maidenhead Berkshire SL6 8YA, United Kingdom Tel: <44> (1628) 585000 Fax: <44> (1628) 585200 Hitachi Europe GmbH Electronic Components Group Dornacher Strae 3 D-85622 Feldkirchen Postfach 201, D-85619 Feldkirchen Germany Tel: <49> (89) 9 9180-0 Fax: <49> (89) 9 29 30 00 Hitachi Asia Ltd. Hitachi Tower 16 Collyer Quay #20-00 Singapore 049318 Tel : <65>-538-6533/538-8577 Fax : <65>-538-6933/538-3877 URL : http://semiconductor.hitachi.com.sg Hitachi Asia Ltd. (Taipei Branch Office) 4/F, No. 167, Tun Hwa North Road Hung-Kuo Building Taipei (105), Taiwan Tel : <886>-(2)-2718-3666 Fax : <886>-(2)-2718-8180 Telex : 23222 HAS-TP URL : http://www.hitachi.com.tw Hitachi Asia (Hong Kong) Ltd. Group III (Electronic Components) 7/F., North Tower World Finance Centre, Harbour City, Canton Road Tsim Sha Tsui, Kowloon Hong Kong Tel : <852>-(2)-735-9218 Fax : <852>-(2)-730-0281 URL : http://semiconductor.hitachi.com.hk
Copyright (c) Hitachi, Ltd., 2001. All rights reserved. Printed in Japan.
Colophon 5.0
Rev.4, Sep. 2001, page 18 of 18
This datasheet has been download from: www..com Datasheets for electronics components.

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