HIT HA17384HPS, HA17384EPS, HA17384DPS, HA17385HPS, HA17384SPS Datasheet

HA17384SPS/SRP, HA17384HPS/HRP,

HA17385HPS/HRP

High Speed Current Mode PWM Control IC

for Switching Power Supply

ADE-204-028A (Z)

2nd Edition

Nov. 1999

Description

The HA17384S/H and HA17385H are PWM control switching regulator IC series suitable for highspeed,
current-mode switching power supplies. With ICs from this series and a few external parts, a small, low
cost flyback-transformer switching power supply can be constructed, which facilitates good line regulation
by current mode control. Synchronous operation driven after an external signal can also be easily obtained
which offers various applications such as a power supply for monitors small multi-output power supply.

The IC series are composed of circuits required for a switching regulator IC. That is a under-voltage
lockout (UVL), a high precision reference voltage regulator (5.0 V ± 2%), a triangular wave oscillator for
timing generation, a high-gain error amplifier, and as totem pole output driver circuit which directly drives
the gate of power MOSFETs found in main switching devices. In addition, a pulse-by-pulse type, high­speed, current-detection comparator circuit with variable detection level is incorporated which is required
for current mode control.

The HA17384SPS includes the above basic function circuits. In addition to these basic functions, the H
Series incorporates thermal shut-down protection (TSD) and overvoltage protection (OVP) functions, for
configuration of switching power supplies that meet the demand for high safety levels.

Between the HA17384 and HA17385, only the UVL threshold voltages differ as shown in the product
lineup table.(See next page.)

This IC is pin compatible with the “3842 family” ICs made by other companies in the electronics industry.
However, due to the characteristics of linear ICs, it is not possible to achieve ICs that offer full
compatibility in every detail.

Therefore, when using one of these ICs to replace another manufacturer’s IC, it must be recognized that it
has different electrical characteristics, and it is necessary to confirm that there is no problem with the power
supply (mounting) set used.

HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP

2

Functions

• Under-voltage lockout system

• Reference voltage regulator of 5.0 V ± 2%

• Triangular wave (sawtooth) oscillator

• Error amplifier

• Totem pole output driver circuit (direct driving for power MOSFETs)

• Current-detection comparator circuit for current mode

• OVP function (over voltage protection) *

1

• TSD function (thermal shut-down protection) *

1

• Protect function by zener diode (between power input and GND)
Note: 1. H series only.

Features

• High-safety UVL circuit is used (Both VIN and Vref are monitored)

• High speed operation:
 Current detection response time: 100 ns Typ
 Maximum oscillation frequency: 500 kHz

• Low standby current: 170 µA Typ

• Wide range dead band time

(Discharge current of timing capacitance is constant 8.4 mA Typ)

• Able to drive power MOSFET directly
(Absolute maximum rating of output current is ±1 A peak)

• OVP function (over voltage protection) is included *

1

(Output stops when FB terminal voltage is 7.0 V Typ or higher)

• TSD function (thermal shut-down protection) is included *

1

(Output stops when the temperature is 160°C Typ or higher)

• Zener protection is included
(Clamp voltage between VIN and GND is 34 V Typ)

• Wide operating temperature range:
 Operating temperature: –20°C to +105°C
 Junction temperature: 150°C *

2

Note: 1. H series only.

2. S series only.

HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP

3

Product Line-up

Package Additional Function

UVL Power Supply
Threshold Voltage

DILP8 (DP-8) SOP8 (FP-8DC)

TSD
(Thermal shut­down protection)

OVP
(Over voltage
protection) V

TH UVL

(V) Typ V

TL UVL

(V) Typ

HA17384SPS HA17384SRP — — 16.0 10.0
HA17384HPS HA17384HRP ❍❍
HA17385HPS HA17385HRP ❍❍8.4 7.6

Pin Arrangement

1

2

3

4

8

7

6

5

COMP

FB

CS

R

T/CT

Vref

V

IN

OUT

GND

(Top view)

Pin Function

Pin No. Symbol Function Note

1 COMP Error amplifier output pin
2 FB Inverting input of error amp./OVP input pin 1
3 CS Current sensing signal input pin
4R

T

/C

T

Timing resistance, timing capacitance connect pin
5 GND Groung pin
6 OUT PWM Pulse output pin
7VINPower supply voltage input pin
8 Vref Reference voltage 5V output pin

Note: 1. Overvoltage protection (OVP) input is usable only for the HA17384H and HA17385H.

HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP

4

Block Diagram

Oscillator

Totem pole
output circuit

Note: 1. Blocks with bold line are not included in HA17384SPS/SRP.

0.8mA

EA

−

+

OVP

−

+

CS

−

+

7.0V

UVL1

H

L

VL

VH

UVL2

Vref > 4.7VR

Q

S

6.5V

1
2

Vref

(2.5V)

*1

2V

F

160°C

2R

R

1V

R
S

Q

PWM LOGIC

Vref

NOR

8.4 mA

1.2V

+

−

OR

34V

1

2

3

4

8

7

6

COMP

FB

(OVP input)

CS

RT/CT

Vref

V

IN

OUT

5 GND

2.8 V

OUT

5V band
gap
reference
regulator

OVP
latch

TSD

sense

CS

latch

Latch set

pulse

HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP

5

Absolute Maximum Ratings

Item Symbol Rating Unit Note

Supply voltage V

IN

30 V

DC output current I

O

±0.1 A

Peak output current I

O PEAK

±1.0 A

Error amplifier input voltage V

FB

–0.3 to V

IN

V

COMP terminal input voltage V

COMP

–0.3 to +7.5 V

Error output sink current I

OEA

10 mA

Power dissipation P

T

680 mW 1, 2
Operating temperature Topr –20 to +105 °C
Junction temperature Tj 125 °C3

150 °C4
Storage temperature Tstg –55 to +125 °C3

–55 to +150 °C4
Notes: 1. For the HA17384HPS and HA17385HPS,

This value applies up to Ta = 43°C; at temperatures above this, 8.3 mW/°C derating should be

applied.
For the HA17384SPS,
This value applies up to Ta = 68°C; at temperatures above this, 8.3 mW/°C derating should be

applied.

Power Dissipation P

T

(mW)

Ambient Temperature Ta (°C)

680mW

374mW

43°C 68°C 150°C

800

600

400

200

0

−20 0 20 40 60 80 100 120 140 160

166mW

105°C 125°C

HA17384SPS

HA17384HPS, HA17385HPS

HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP

6

Absolute Maximum Ratings (cont)

Notes: 2. This is the value when the device is mounted on a glass-epoxy substrate (40 mm × 40 mm × 1.6

mm). However,
For the HA17384HRP and HA17385HRP,
Derating should be performed with 8.3 mW/°C in the Ta ≥ 43°C range if the substrate wiring

density is 10%.
Derating should be performed with 11.1 mW/°C in the Ta ≥ 63°C range if the substrate wiring

density is 30%.
For the HA17384SRP,
Derating should be performed with 8.3 mW/°C in the Ta ≥ 68°C range if the substrate wiring

density is 10%.
Derating should be performed with 11.1 mW/°C in the Ta ≥ 89°C range if the substrate wiring

density is 10%.

Power Dissipation P

T

(mW)

Ambient Temperature Ta (°C)

374 mW

680 mW

43°C63°C

150°C89°C

800

600

400

200

0

−20 0 20 40 60 80 100 120 140 160

166 mW

500 mW

222 mW

68°C 105°C 125°C

HA17384SRP
: −11.1 mW/°C (wiring density is 30%)
: −8.3 mW/°C (wiring density is 10%)
HA17384HRP, HA17385HRP
: −11.1 mW/°C (wiring density is 30%)
: −8.3 mW/°C (wiring density is 10%)

3. Applies to the HA17384HPS/HRP and HA17385HPS/HRP.

4. Applies to the HA17384SPS/SRP.

HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP

7

Electrical Characteristics

(The condition is: Ta = 25°C, VIN = 15 V, CT = 3300 pF, RT = 10 kΩ without notice)

Reference Part

Item Symbol Min Typ Max Unit Test Condition Note

Reference output voltage Vref 4.9 5.0 5.1 V Io = 1 mA
Line regulation Regline — 20 50 mV 12 V ≤ V

IN

≤ 25 V
Load regulation Regload — 10 25 mV –1 mA ≥ Io ≥ –20 mA
Output short current los –30 –100 –180 mA Vref = 0V
Temperature stability ∆Vref — 80 — ppm/°C Io = –1 mA,

–20°C ≤ Ta ≤ 105°C

1

Output noise voltage V

N

— 100 — µV 10 Hz ≤ fnoise ≤ 10 kHz 1

Notes: 1. Reference value for design.

Triangular Wave Oscillator Part

Item Symbol Min Typ Max Unit Test Condition Note

Typical oscillating frequency fosc Typ 47 52 57 kHz C

T

= 3300 pF,

R

T

= 10 kΩ

Maximum oscillating
frequency

fosc Max 500 — — kHz

Supply voltage dependency of
oscillating frequency

∆fosc 1 — ±0.5 ±2.0 % 12 V ≤ VIN ≤ 25 V

Temperature dependency of
oscillating frequency

∆fosc 2 — ±5.0 — % –20°C ≤ Ta ≤ 105°C1

Discharge current of C

T

Isink

CT

7.5 8.4 9.3 mA VCT = 2.0 V

Low level threshold voltage V

TLCT

— 1.2 — V 1

High level threshold voltage V

THCT

— 2.8 — V 1

Triangular wave amplitude ∆V

CT

— 1.6 — V ∆VCT = V

THCT

– V

TLCT

1

Notes: 1. Reference value for design.

HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP

8

Electrical Characteristics (cont)

Error Amplifire Part / OVP Part

Item Symbol Min Typ Max Unit Test Condition Note

Non-inverting input voltage V

FB

2.42 2.50 2.58 V V

COMP

= 2.5 V

Input bias current I

IB

— –0.2 –2.0 µAVFB = 5.0 V

Open loop voltage gain A

VOL

65 90 — dB 2.0 V ≤ VO ≤ 4.0 V
Unity gain bank width BW 0.7 1.0 — MHz
Power supply voltage

rejection ratio

PSRR 60 70 — dB 12 V ≤ VIN ≤ 25 V

Output sink current I

Osink EA

3.0 9.0 — mA VFB = 2.7 V, V

COMP

= 1.1 V

Output source current I

Osource EA

–0.5 –0.8 — mA VFB = 2.3 V, V

COMP

= 5.0 V

High level output voltage V

OH EA

5.5 6.5 7.5 V VFB = 2.3 V,
R

L

= 15 kΩ(GND)

Low level output voltage V

OL EA

— 0.7 1.1 V VFB = 2.7 V,

R

L

= 15 kΩ(Vref)

OVP latch threshold
voltage

V

OVP

6.0 7.0 8.0 V Increase FB terminal
voltage

1

OVP (FB) terminal input
current

I

FB(OVP)

—3050µAVFB = 8.0 V 1

OVP latch reset VIN voltage V

IN(OVP RES)

6.0 7.0 8.0 V Decreasing VIN after OVP
latched

1

Note: 1. These values are not prescribe to the HA17384SPS/SRP because OVP function is not included.

HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP

9

Electrical Characteristics (cont)

Current Sensing Part

Item Symbol Min Typ Max Unit Test Condition Note

Voltage gain A

VCS

2.85 3.00 3.15 V/V VFB = 0 V 1

Maximum sensing voltage Vth

CS

0.9 1.0 1.1 V

Power supply voltage
rejection ratio

PSRR — 70 — dB 12 V ≤ VIN ≤ 25 V 2

Input bias current I

BCS

— –2 –10 µAVCS = 2 V

Current sensing
response time

tpd 50 100 150 ns Time from when V

CS

becomes 2 V to when
output becomes “L” (2 V)

3

Notes: 1. The gain this case is the ratio of error amplifier output change to the current-sensing threshold

voltage change.

2. Reference value for design.

3. Current sensing response time tpd is definded a shown in the figure 1.

V

CS

V

OUT

(PWM)

Vth

tpd

Figure 1 Definition of Current Sensing Response Time tpd

PWM Output Part

Item Symbol Min Typ Max Unit Test Condition Note

Output low voltage 1 V

OL1

— 0.7 1.5 V losink = 20 mA

Output low voltage 2 V

OL2

— 1.5 2.2 V losink = 200 mA 1

Output high voltage 1 V

OH1

13.0 13.5 — V losource = –20 mA

Output high voltage 2 V

OH2

12.0 13.3 — V losource = –200 mA 1

Output low voltage at
standby mode

V

OL STB

— 0.8 1.1 V VIN = 5 V,

losink = 1 mA

Rise time t

r

— 80 150 ns CL = 1000 pF

Fall time t

f

— 70 130 ns CL = 1000 pF
Maximum ON duty Du max 94 96 100 %
Minimum ON duty Du min — — 0 %

Notes: 1. Pulse application test

HA17384SPS/SRP, HA17384HPS/HRP, HA17385HPS/HRP

10

Electrical Characteristics (cont)

UVL Part

Item Symbol Min Typ Max Unit Test Condition Note

Threshold voltage for V

TH UVL

14.5 16.0 17.5 V Turn-ON voltage 1
high VIN level 7.6 8.4 9.2 V when VIN is rising 2
Threshold voltage for V

TL UVL

9.0 10.0 11.0 V Minimum operating 1
low VIN level 6.8 7.6 8.4 V voltage after turn-ON 2
V

IN

UVL hysteresis voltage V

HYS UVL

5.0 6.0 7.0 V V

HYS UVL

= V

TH UVL

– V

TL UVL

1

0.6 0.8 1.0 V 2
Vref UVL threshold voltage V

T Vref

4.3 4.7 Vref V Voltage is forced toVref

terminal

Notes: 1. For the HA17384S/H.

2. For the HA17385H.

Total Characteristics

Item Symbol Min Typ Max Unit Test Condition Note

Operating current I

IN

7.0 10.0 13.0 mA CL = 1000 pF, VFB = VCS = 0 V

Standby current I

STBY

120 170 230 µA Current at start up

Current of latch I

LATCH

200 270 340 µAV

FB

= 0 V after VFB = V

OVP

1, 2

Power supply zener
voltage

V

INZ

31 34 37 V IIN + 2.5 mA

Overheat protection
starting temperature

Tj

TSD

— 160 — °C 3, 4

Notes: 1. These values are not prescribe to the HA17384SPS/SRP because OVP function is not included.

2. V

IN

= 8.5 V in case of the HA17384H.

2. These values are not prescribe to the HA17384SPS/SRP because TSD function is not included.

4. Reference value for design.