2024年9月1日发(作者：瑞蓉)

Supertex inc.

40MHz, 32-Channel Serial to Parallel Converter

with Push-Pull Outputs

Features

► HVCMOS

®

technology

► 5.0V logic and 12V supply rail

► Output voltage up to +200V

► Low power level shifting

► Source/sink current minimum 50mA

► 40MHz equivalent data rate

► Latched data outputs

► Forward and reverse shifting options (DIR pin)

► Chip select

► Polarity function

HV7620

General Description

The HV7620 is a low-voltage serial to high-voltage parallel

converter with push-pull outputs. This device has been designed

for use as a driver for color AC plasma displays.

The device has 4 parallel 8-bit shift registers permitting data rates

four times the speed of one. The data is clocked in simultaneously

on all four data inputs with a single clock. Data is shifted in on a

low to high transition of the clock. The latches and control logic

perform the output enable function.

The DIR pin causes clockwise (CW) shifting of the data when

connected to VDD1, and counterclockwise (CCW) shifting when

connected to LVGND. Operation of the shift register is not affected

by the LE (latch enable) input. Transfer of data from the shift

registers to the latches occurs when the LE input is high. Data is

stored in the latches when LE is low. The current source on the

logic inputs provides active pull up when the input pins are open.

Functional Block Diagram

D

IN

A

D

OUT

A

CLK

8-Bit

Shift

Register

LE

QA1

BLACSPOL

HV

OUT

A1

8

8-Bit

Latches

QA8

≈

≈

BLB

≈

HV

OUT

B1

HV

OUT

C1

HV

OUT

D1

D

IN

B

D

OUT

B

QB1

8-Bit

Shift

Register

8-Bit

Latches

QB8

DIR

D

IN

C

D

OUT

C

8

≈

≈

BLC

≈

QC1

8-Bit

Shift

Register

8

8-Bit

Latches

QC8

≈

≈

BLD

≈

HV

OUT

A8

HV

OUT

B8

HV

OUT

C8

HV

OUT

D8

D

IN

D

D

OUT

D

QD1

8-Bit

Shift

Register

8-Bit

Latches

QD8

≈

≈

8

Doc.# DSFP-HV7620

C112213

Supertex inc.

HV7620

Ordering Information / Availability

Part Number

HV7620PG-G

Package Option

64-Lead PQFP (3-sided)

Packing

66/tray

Pin Configuration

64

-G denotes a lead (Pb)-free / RoHS compliant package

Absolute Maximum Ratings

Parameter

Supply voltage, V

DD1

Supply voltage, V

DD2

Supply voltage, V

PP

Logic input levels

Continuous total power dissipation

1

Operating temperature range

Storage temperature range

Value

-0.5V to +14V

-0.5V to +14V

-0.5V to +225V

-2.0V to V

DD1

+ 2.0V

1200mW

-40°C to +85°C

-65°C to +150°C

1

64-Lead PQFP (3-sided)

(top view)

Product Marking

Top Marking

HV7620PG

LLLLLLLLLL

YYWW

CCCCCCCC AAA

L = Lot Number

YY = Year Sealed

WW = Week Sealed

C = Country of Origin

A = Assembler ID

= “Green” Packaging

Package may or may not include the following marks: Si or

Absolute Maximum Ratings are those values beyond which damage to the

device may occur. Functional operation under these conditions is not implied.

Continuous operation of the device at the absolute rating level may affect

device reliability. All voltages are referenced to device ground.

Notes:

1. For operation above 25°C ambient derate linearly to maximum

operating temperature at 20mW/°C.

64-Lead PQFP (3-sided)

Typical Thermal Resistance

Package

64-Lead PQFP

θ

ja

41

O

C/W

Recommended Operating Conditions

Sym

V

DD1

V

DD2

V

PP

V

IH

V

IL

f

CLK

T

A

I

OD

I

GND(VPP)

V

PP(SLEW)

Parameter

Logic supply voltage

12V supply voltage

High voltage supply voltage

High-level input voltage

Low-level input voltage

Clock frequency

Operating temperature range

Allowable pulsed current through output diodes

1

Allowable pulsed V

PP

or HVGND current

1

Slew rate of V

PP

V

DD1

= 5.0V

V

DD1

= 12V

Min

4.5

10.8

50

V

DD1

-0.5V

0

-

-

-40

-

-

-

Max

V

DD2

13.2

200

V

DD1

0.5

10

5

+85

500

16

340

Units

V

V

V

V

V

MHz

MHz

°C

mA

A

V/µs

Notes:

1. The current pulse width = 500ns, duty cycle = 5%.

Doc.# DSFP-HV7620

C112213

2

Supertex inc.

HV7620

DC Electrical Characteristics

Sym

I

DD1

I

DD2

I

PP

I

DD1Q

I

DD2Q

V

OH

V

OL

I

IH

I

IL

V

GG

Parameter

V

DD1

supply current

V

DD2

supply current

High voltage supply current

Quiescent V

DD1

supply current

Quiescent V

DD2

supply current

High-level output

Low-level output

High-level logic input current

Low-level logic input current

HVGND to LVGND voltage difference

HV

OUT

Data OUT

HV

OUT

Data OUT

(Over operating supply voltages and temperature, unless otherwise noted, V

DD1

= 5.0V, V

DD2

= 12V, V

PP

= 200V and T

j

= 25°C)

Min

-

-

-

-

-

185

V

DD

-1

-

-

-

-

-1.0

Max

5.0

20

2.0

100

100

-

-

20

1.0

1.0

-10

1.0

Units

mA

mA

mA

µA

µA

V

V

µA

µA

V

Conditions

f

CLK

= 10MHz

V

DD2

= 13.2V, f

CLK

= 10MHz

All outputs high or low

All input = V

DD1

All input = V

DD1

I

O

= -50mA

I

O

= -100µA

I

O

= +50mA

I

O

= +100µA

V

IN

= V

DD1

V

IN

= 0V

---

AC Electrical Characteristics

Sym

f

CLK

t

WL

, t

WH

t

SU

t

H

t

ON

, t

OFF

t

WLE

t

DLE

t

SLE

t

DLF,

t

DLN

t

COF,

t

CON

t

DLH

t

DHL

Parameter

Clock frequency

Clock width high or low

(Logic signal inputs and data inputs have t

r

, t

f

≤ 5ns. V

DD1

= 5.0V or 12V, V

DD2

= 12V, V

PP

= 200V and T

j

= 25°C)

Min

V

DD1

= 5.0V

V

DD1

= 12V

-

-

40

20

20

-

25

50

20

-

-

V

DD1

= 5.0V

V

DD1

= 12V

V

DD1

= 5.0V

V

DD1

= 12V

-

-

-

-

Max

10

5.0

-

-

-

275

-

-

-

250

275

250

100

250

100

Units

MHz

ns

ns

ns

ns

ns

ns

ns

ns

ns

ns

ns

Conditions

Per register, C

L

= 15pF

---

---

---

C

L

= 15pF

---

---

---

---

---

C

L

= 15pF

C

L

= 15pF

Data set-up time before clock rises

Data hold time after clock rises

Time from latch enable to HV

OUT

LE pulse width

Delay time clock to LE low to high

LE set-up time before clock rises

BL or CS low to high to HV

OUT

Clock to HV

OUT

Delay time clock to data low

to high

Delay time clock to data high

to low

Doc.# DSFP-HV7620

C112213

3

Supertex inc.

HV7620

Input and Output Equivalent Circuits

VDD2

VDD1

VDD1

VPP

INPUT

DATA OUT

HV

OUT

LVGND

LVGND

HVGND

Logic Inputs

Logic Data Output

High Voltage Outputs

Switching Waveforms

V

IH

Data Input

CLK

50%

t

SU

50%50%

Data Valid

t

H

50%

t

f

90%

50%

10%

t

r

10%

90%

50%

V

IL

V

IH

V

IL

V

OH

t

WL

t

DLH

Data Output

t

DHL

t

WH

50%

V

OL

V

OH

50%

V

OL

50%

50%

V

IH

V

IL

LE

t

DLE

t

WLE

HV

OUT

t

COF

90%

t

SLE

V

OH

V

OL

V

OH

t

OFF

HV

OUT

t

CON

BLA, BLB,

BLC, BLD, or CS

50%

10%

t

ON

V

OL

V

IH

V

IL

t

DLF

HV

OUT

t

DLN

90%

10%

V

OH

V

OL

Doc.# DSFP-HV7620

C112213

4

Supertex inc.

HV7620

Function Table

Inputs

Function

D

IN

A

X

X

X

X

X

H

X

X

D

IN

B

X

X

X

X

X

L

X

X

D

IN

C

X

X

X

X

X

L

X

X

D

IN

D

X

X

X

X

X

L

X

X

CLK

X

X

X

X

X

↑

X

↑

LE

X

X

X

X

X

H

L

H

DIR

X

X

X

X

X

X

X

H

BLA

X

X

L

H

H

H

H

H

BLB

X

X

X

H

H

H

H

H

BLC

X

X

X

H

H

H

H

H

BLD

X

X

X

H

H

H

H

H

CS

L

L

X

H

H

H

H

H

POL

L

H

H

H

L

H

H

X

A

N

→

A

N+1

A

N

→

A

N-1

H

A

H

L

L

HV

OUT

B

H

L

*

C

H

L

*

D

H

L

*

All O/P High

All O/P Low

“A”

†

Outputs

Low

Normal

Polarity

Outputs

Inverted

Transparent

Mode

Data Stored

Shift CW

A

No Inversion

Inversion

LLL

Stored data

B

N

→

B

N+1

B

N

→

B

N-1

C

N

→

C

N+1

C

N

→

C

N-1

D

N

→

D

N+1

D

N

→

D

N-1

Shift CCW

B

XXXX↑HLHHHHHX

Notes:

H = High level, L = Low level, X = Irrelevant, ↑ = Low to high transition.

* = Dependent on previous stage’s state before the last CLK ↑ for last LE high.

† = BLB, BLC and BLD will have similar effect on their respective output.

Power-up sequence:

1. GND (HV, LV)

2. V

DD1

3. V

DD2

4. V

PP

5. Logic Input Signals

To power down reverse the sequence above.

Doc.# DSFP-HV7620

C112213

5

Supertex inc.

HV7620

Pin Function

Pin #

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

Function

HVGND

VPP

HV

OUT

D8

HV

OUT

C8

HV

OUT

B8

HV

OUT

A8

HV

OUT

D7

HV

OUT

C7

HV

OUT

B7

HV

OUT

A7

HV

OUT

D6

HV

OUT

C6

HV

OUT

B6

HV

OUT

A6

HV

OUT

D5

HV

OUT

C5

Pin #

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

Function

HV

OUT

B5

HV

OUT

A5

VPP

HVGND

HVGND

VDD2

BLC

BLD

LE

D

OUT

D

D

IN

D

D

IN

C

D

OUT

C

POL

LVGND

DIR

Pin #

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48

Function

CS

D

OUT

B

D

IN

B

D

IN

A

D

OUT

A

CLK

BLA

BLB

VDD1

LVGND

N/C

HVGND

HVGND

VPP

HV

OUT

D4

HV

OUT

C4

Pin #

49

50

51

52

53

54

55

56

57

58

59

60

61

62

63

64

Function

HV

OUT

B4

HV

OUT

A4

HV

OUT

D3

HV

OUT

C3

HV

OUT

B3

HV

OUT

A3

HV

OUT

D2

HV

OUT

C2

HV

OUT

B2

HV

OUT

A2

HV

OUT

D1

HV

OUT

C1

HV

OUT

B1

HV

OUT

A1

VPP

HVGND

Doc.# DSFP-HV7620

C112213

6

Supertex inc.

HV7620

64-Lead PQFP (3-Sided) Package Outline (PG)

20.00x14.00mm body, 3.40mm height (max), 0.80mm pitch, 3.90mm footprint

L3

64

D

D1

Note 1

(Index Area

D1/4 x E1/4)

E1

E

Note 2

1

be

View B

θ1

Top View

A

A2

Seating

Plane

L

L1

L2

Gauge

Plane

Seating

Plane

A1

θ

Side View

View B

Note:

1. A Pin 1 identifier must be located in the index area indicated. The Pin 1 identifier can be: a molded mark/identifier; an embedded metal marker; or

a printed indicator.

2. The leads on this side are trimmed.

Symbol

Dimen-

sion

(mm)

MIN

NOM

MAX

A

2.80

-

3.40

A1

0.25

-

0.50

A2

2.55

2.80

3.05

b

0.30

-

0.45

DD1EE1eL

0.73

L1L2L3θ

0

O

θ1

5

O

-

16

O

22.2519.8017.6513.80

22.5020.0017.9014.00

0.801.950.250.55

0.883.5

O

BSCREFBSCREF

22.7520.2018.1514.201.037

O

Drawings not to scale.

Supertex Doc. #: DSPD-64PQFPPG, Version A080812.

(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline

information go to /.)

Supertex inc. does not recommend the use of its products in life support applications, and will not knowingly sell them for use in such applications unless it receives

an adequate “product liability indemnification insurance agreement.”

Supertex inc. does not assume responsibility for use of devices described, and limits its liability

to the replacement of the devices determined defective due to workmanship. No responsibility is assumed for possible omissions and inaccuracies. Circuitry and

specifications are subject to change without notice. For the latest product specifications refer to the

Supertex inc. (website: http//)

©2013

Supertex inc.

All rights reserved. Unauthorized use or reproduction is prohibited.

Supertex inc.

7

Doc.# DSFP-HV7620

C112213

1235 Bordeaux Drive, Sunnyvale, CA 94089

Tel: 408-222-8888

2024年9月1日发(作者：瑞蓉)

Supertex inc.

40MHz, 32-Channel Serial to Parallel Converter

with Push-Pull Outputs

Features

► HVCMOS

®

technology

► 5.0V logic and 12V supply rail

► Output voltage up to +200V

► Low power level shifting

► Source/sink current minimum 50mA

► 40MHz equivalent data rate

► Latched data outputs

► Forward and reverse shifting options (DIR pin)

► Chip select

► Polarity function

HV7620

General Description

The HV7620 is a low-voltage serial to high-voltage parallel

converter with push-pull outputs. This device has been designed

for use as a driver for color AC plasma displays.

The device has 4 parallel 8-bit shift registers permitting data rates

four times the speed of one. The data is clocked in simultaneously

on all four data inputs with a single clock. Data is shifted in on a

low to high transition of the clock. The latches and control logic

perform the output enable function.

The DIR pin causes clockwise (CW) shifting of the data when

connected to VDD1, and counterclockwise (CCW) shifting when

connected to LVGND. Operation of the shift register is not affected

by the LE (latch enable) input. Transfer of data from the shift

registers to the latches occurs when the LE input is high. Data is

stored in the latches when LE is low. The current source on the

logic inputs provides active pull up when the input pins are open.

Functional Block Diagram

D

IN

A

D

OUT

A

CLK

8-Bit

Shift

Register

LE

QA1

BLACSPOL

HV

OUT

A1

8

8-Bit

Latches

QA8

≈

≈

BLB

≈

HV

OUT

B1

HV

OUT

C1

HV

OUT

D1

D

IN

B

D

OUT

B

QB1

8-Bit

Shift

Register

8-Bit

Latches

QB8

DIR

D

IN

C

D

OUT

C

8

≈

≈

BLC

≈

QC1

8-Bit

Shift

Register

8

8-Bit

Latches

QC8

≈

≈

BLD

≈

HV

OUT

A8

HV

OUT

B8

HV

OUT

C8

HV

OUT

D8

D

IN

D

D

OUT

D

QD1

8-Bit

Shift

Register

8-Bit

Latches

QD8

≈

≈

8

Doc.# DSFP-HV7620

C112213

Supertex inc.

HV7620

Ordering Information / Availability

Part Number

HV7620PG-G

Package Option

64-Lead PQFP (3-sided)

Packing

66/tray

Pin Configuration

64

-G denotes a lead (Pb)-free / RoHS compliant package

Absolute Maximum Ratings

Parameter

Supply voltage, V

DD1

Supply voltage, V

DD2

Supply voltage, V

PP

Logic input levels

Continuous total power dissipation

1

Operating temperature range

Storage temperature range

Value

-0.5V to +14V

-0.5V to +14V

-0.5V to +225V

-2.0V to V

DD1

+ 2.0V

1200mW

-40°C to +85°C

-65°C to +150°C

1

64-Lead PQFP (3-sided)

(top view)

Product Marking

Top Marking

HV7620PG

LLLLLLLLLL

YYWW

CCCCCCCC AAA

L = Lot Number

YY = Year Sealed

WW = Week Sealed

C = Country of Origin

A = Assembler ID

= “Green” Packaging

Package may or may not include the following marks: Si or

Absolute Maximum Ratings are those values beyond which damage to the

device may occur. Functional operation under these conditions is not implied.

Continuous operation of the device at the absolute rating level may affect

device reliability. All voltages are referenced to device ground.

Notes:

1. For operation above 25°C ambient derate linearly to maximum

operating temperature at 20mW/°C.

64-Lead PQFP (3-sided)

Typical Thermal Resistance

Package

64-Lead PQFP

θ

ja

41

O

C/W

Recommended Operating Conditions

Sym

V

DD1

V

DD2

V

PP

V

IH

V

IL

f

CLK

T

A

I

OD

I

GND(VPP)

V

PP(SLEW)

Parameter

Logic supply voltage

12V supply voltage

High voltage supply voltage

High-level input voltage

Low-level input voltage

Clock frequency

Operating temperature range

Allowable pulsed current through output diodes

1

Allowable pulsed V

PP

or HVGND current

1

Slew rate of V

PP

V

DD1

= 5.0V

V

DD1

= 12V

Min

4.5

10.8

50

V

DD1

-0.5V

0

-

-

-40

-

-

-

Max

V

DD2

13.2

200

V

DD1

0.5

10

5

+85

500

16

340

Units

V

V

V

V

V

MHz

MHz

°C

mA

A

V/µs

Notes:

1. The current pulse width = 500ns, duty cycle = 5%.

Doc.# DSFP-HV7620

C112213

2

Supertex inc.

HV7620

DC Electrical Characteristics

Sym

I

DD1

I

DD2

I

PP

I

DD1Q

I

DD2Q

V

OH

V

OL

I

IH

I

IL

V

GG

Parameter

V

DD1

supply current

V

DD2

supply current

High voltage supply current

Quiescent V

DD1

supply current

Quiescent V

DD2

supply current

High-level output

Low-level output

High-level logic input current

Low-level logic input current

HVGND to LVGND voltage difference

HV

OUT

Data OUT

HV

OUT

Data OUT

(Over operating supply voltages and temperature, unless otherwise noted, V

DD1

= 5.0V, V

DD2

= 12V, V

PP

= 200V and T

j

= 25°C)

Min

-

-

-

-

-

185

V

DD

-1

-

-

-

-

-1.0

Max

5.0

20

2.0

100

100

-

-

20

1.0

1.0

-10

1.0

Units

mA

mA

mA

µA

µA

V

V

µA

µA

V

Conditions

f

CLK

= 10MHz

V

DD2

= 13.2V, f

CLK

= 10MHz

All outputs high or low

All input = V

DD1

All input = V

DD1

I

O

= -50mA

I

O

= -100µA

I

O

= +50mA

I

O

= +100µA

V

IN

= V

DD1

V

IN

= 0V

---

AC Electrical Characteristics

Sym

f

CLK

t

WL

, t

WH

t

SU

t

H

t

ON

, t

OFF

t

WLE

t

DLE

t

SLE

t

DLF,

t

DLN

t

COF,

t

CON

t

DLH

t

DHL

Parameter

Clock frequency

Clock width high or low

(Logic signal inputs and data inputs have t

r

, t

f

≤ 5ns. V

DD1

= 5.0V or 12V, V

DD2

= 12V, V

PP

= 200V and T

j

= 25°C)

Min

V

DD1

= 5.0V

V

DD1

= 12V

-

-

40

20

20

-

25

50

20

-

-

V

DD1

= 5.0V

V

DD1

= 12V

V

DD1

= 5.0V

V

DD1

= 12V

-

-

-

-

Max

10

5.0

-

-

-

275

-

-

-

250

275

250

100

250

100

Units

MHz

ns

ns

ns

ns

ns

ns

ns

ns

ns

ns

ns

Conditions

Per register, C

L

= 15pF

---

---

---

C

L

= 15pF

---

---

---

---

---

C

L

= 15pF

C

L

= 15pF

Data set-up time before clock rises

Data hold time after clock rises

Time from latch enable to HV

OUT

LE pulse width

Delay time clock to LE low to high

LE set-up time before clock rises

BL or CS low to high to HV

OUT

Clock to HV

OUT

Delay time clock to data low

to high

Delay time clock to data high

to low

Doc.# DSFP-HV7620

C112213

3

Supertex inc.

HV7620

Input and Output Equivalent Circuits

VDD2

VDD1

VDD1

VPP

INPUT

DATA OUT

HV

OUT

LVGND

LVGND

HVGND

Logic Inputs

Logic Data Output

High Voltage Outputs

Switching Waveforms

V

IH

Data Input

CLK

50%

t

SU

50%50%

Data Valid

t

H

50%

t

f

90%

50%

10%

t

r

10%

90%

50%

V

IL

V

IH

V

IL

V

OH

t

WL

t

DLH

Data Output

t

DHL

t

WH

50%

V

OL

V

OH

50%

V

OL

50%

50%

V

IH

V

IL

LE

t

DLE

t

WLE

HV

OUT

t

COF

90%

t

SLE

V

OH

V

OL

V

OH

t

OFF

HV

OUT

t

CON

BLA, BLB,

BLC, BLD, or CS

50%

10%

t

ON

V

OL

V

IH

V

IL

t

DLF

HV

OUT

t

DLN

90%

10%

V

OH

V

OL

Doc.# DSFP-HV7620

C112213

4

Supertex inc.

HV7620

Function Table

Inputs

Function

D

IN

A

X

X

X

X

X

H

X

X

D

IN

B

X

X

X

X

X

L

X

X

D

IN

C

X

X

X

X

X

L

X

X

D

IN

D

X

X

X

X

X

L

X

X

CLK

X

X

X

X

X

↑

X

↑

LE

X

X

X

X

X

H

L

H

DIR

X

X

X

X

X

X

X

H

BLA

X

X

L

H

H

H

H

H

BLB

X

X

X

H

H

H

H

H

BLC

X

X

X

H

H

H

H

H

BLD

X

X

X

H

H

H

H

H

CS

L

L

X

H

H

H

H

H

POL

L

H

H

H

L

H

H

X

A

N

→

A

N+1

A

N

→

A

N-1

H

A

H

L

L

HV

OUT

B

H

L

*

C

H

L

*

D

H

L

*

All O/P High

All O/P Low

“A”

†

Outputs

Low

Normal

Polarity

Outputs

Inverted

Transparent

Mode

Data Stored

Shift CW

A

No Inversion

Inversion

LLL

Stored data

B

N

→

B

N+1

B

N

→

B

N-1

C

N

→

C

N+1

C

N

→

C

N-1

D

N

→

D

N+1

D

N

→

D

N-1

Shift CCW

B

XXXX↑HLHHHHHX

Notes:

H = High level, L = Low level, X = Irrelevant, ↑ = Low to high transition.

* = Dependent on previous stage’s state before the last CLK ↑ for last LE high.

† = BLB, BLC and BLD will have similar effect on their respective output.

Power-up sequence:

1. GND (HV, LV)

2. V

DD1

3. V

DD2

4. V

PP

5. Logic Input Signals

To power down reverse the sequence above.

Doc.# DSFP-HV7620

C112213

5

Supertex inc.

HV7620

Pin Function

Pin #

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

Function

HVGND

VPP

HV

OUT

D8

HV

OUT

C8

HV

OUT

B8

HV

OUT

A8

HV

OUT

D7

HV

OUT

C7

HV

OUT

B7

HV

OUT

A7

HV

OUT

D6

HV

OUT

C6

HV

OUT

B6

HV

OUT

A6

HV

OUT

D5

HV

OUT

C5

Pin #

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

Function

HV

OUT

B5

HV

OUT

A5

VPP

HVGND

HVGND

VDD2

BLC

BLD

LE

D

OUT

D

D

IN

D

D

IN

C

D

OUT

C

POL

LVGND

DIR

Pin #

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48

Function

CS

D

OUT

B

D

IN

B

D

IN

A

D

OUT

A

CLK

BLA

BLB

VDD1

LVGND

N/C

HVGND

HVGND

VPP

HV

OUT

D4

HV

OUT

C4

Pin #

49

50

51

52

53

54

55

56

57

58

59

60

61

62

63

64

Function

HV

OUT

B4

HV

OUT

A4

HV

OUT

D3

HV

OUT

C3

HV

OUT

B3

HV

OUT

A3

HV

OUT

D2

HV

OUT

C2

HV

OUT

B2

HV

OUT

A2

HV

OUT

D1

HV

OUT

C1

HV

OUT

B1

HV

OUT

A1

VPP

HVGND

Doc.# DSFP-HV7620

C112213

6

Supertex inc.

HV7620

64-Lead PQFP (3-Sided) Package Outline (PG)

20.00x14.00mm body, 3.40mm height (max), 0.80mm pitch, 3.90mm footprint

L3

64

D

D1

Note 1

(Index Area

D1/4 x E1/4)

E1

E

Note 2

1

be

View B

θ1

Top View

A

A2

Seating

Plane

L

L1

L2

Gauge

Plane

Seating

Plane

A1

θ

Side View

View B

Note:

1. A Pin 1 identifier must be located in the index area indicated. The Pin 1 identifier can be: a molded mark/identifier; an embedded metal marker; or

a printed indicator.

2. The leads on this side are trimmed.

Symbol

Dimen-

sion

(mm)

MIN

NOM

MAX

A

2.80

-

3.40

A1

0.25

-

0.50

A2

2.55

2.80

3.05

b

0.30

-

0.45

DD1EE1eL

0.73

L1L2L3θ

0

O

θ1

5

O

-

16

O

22.2519.8017.6513.80

22.5020.0017.9014.00

0.801.950.250.55

0.883.5

O

BSCREFBSCREF

22.7520.2018.1514.201.037

O

Drawings not to scale.

Supertex Doc. #: DSPD-64PQFPPG, Version A080812.

(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline

information go to /.)

Supertex inc. does not recommend the use of its products in life support applications, and will not knowingly sell them for use in such applications unless it receives

an adequate “product liability indemnification insurance agreement.”

Supertex inc. does not assume responsibility for use of devices described, and limits its liability

to the replacement of the devices determined defective due to workmanship. No responsibility is assumed for possible omissions and inaccuracies. Circuitry and

specifications are subject to change without notice. For the latest product specifications refer to the

Supertex inc. (website: http//)

©2013

Supertex inc.

All rights reserved. Unauthorized use or reproduction is prohibited.

Supertex inc.

7

Doc.# DSFP-HV7620

C112213

1235 Bordeaux Drive, Sunnyvale, CA 94089

Tel: 408-222-8888