HA17339ATELLE - RENESAS TECHNOLOGY

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April 1st, 2010

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Rev.3.00 Mar 10, 2006 page 1 of 14

HA17339A Series

Quadruple Comparators REJ03D0675-0300

Rev.3.00

Mar 10, 2006

Description

The HA17339A series pr od u c t s are com parat ors designed for general pur po se, es pecial l y for po we r c o nt r ol syst ems.

These ICs operate from a single power-supply voltage over a wide range of voltages, and feature a reduced power-

supply curren t since the supply current is independent of the supply voltage.

These comparators have the merit which ground is included in the common-mode input voltage range at a single-

voltage power supply operation. These products have a wide range of applications, including limit comparators, simple

A/D converters, pulse/square-wave/time delay generators, wide rang e VCO circuits, MOS clock timers, multivibrators,

and high-voltage logic gates.

Features

• Wide power-supply voltage range : 2 to 36 V

• Very low supply current : 0.8 mA Typ.

• Low input bias current : 25 nA Typ.

• Low input offset curren t : 5 nA Typ.

• Low input offset voltage : 2 mV Typ.

• The common-mode input voltage range includes ground

• Output voltages compatible with CMOS logic systems

HA17339A Series

Rev.3.00 Mar 10, 2006 page 2 of 14

• Low electro-magnetic susceptib ility

Measurement Condition

1 k

−

1 k

0.01 µF

−10 dBm

RF signal source

(for quasi-RF noise)

Vcc = 5 V Vcc

Vout

Vin

5.1 kΩ

HA17339A Vout vs. Vin

Vout (V)

6.0

5.0

4.0

3.0

2.0

1.0

0.0

−1.0

0.85 0.90 0.95 1.00 1.101.05 1.15

Vin (V)

1 V

HA17339A (10 MHz)

HA17339A (100 MHz)

HA17339A (0 Hz)

HA17339 Vout vs. Vin

Vout (V)

6.0

5.0

4.0

3.0

2.0

1.0

0.0

−1.0

0.85 0.90 0.95 1.00 1.101.05 1.15

Vin (V)

HA17339 (10 MHz)

HA17339 (100 MHz)

HA17339 (0 Hz)

Ordering Information

Type No. Application Package Name Package Code

HA17339A DIP-14 pin PRDP0014AB-B

HA17339AF SOP-14 pin (JEITA) PRSP0014DF-B

HA17339ARP SOP-14 pin (JEDEC) PRSP0014DE-A

HA17339AT

Commercial use

TSSOP-14 pin PTSP0014JA-B

HA17339A Series

Rev.3.00 Mar 10, 2006 page 3 of 14

Pin Arrangement

−+

−

(Top view)

Vout3

Vout4

GND

Vin(+)4

Vin(−)4

Vin(+)3

Vin(−)3

Vout2

Vout1

VCC

Vin(−)1

Vin(+)1

Vin(−)2

Vin(+)2

Circuit Structure (1/4)

Vout

Vin(+)

Vin(−)

Note: If Input/Output terminals voltage over the absolute maximum ratings, there is possibility of mis-operation,

characteristics deterioration and destruction, becaus e of the current’s flowing to parasitic diod e in IC.

The Input/Output terminals are recommended to be protected with the clamp circuit which using the diode with

low forward voltage (like schottky barrier diode) when there is a possibility for the Inp ut/Output terminals

voltage exceeds the ab solute maximum ratings.

HA17339A Series

Rev.3.00 Mar 10, 2006 page 4 of 14

Absolute Maximum Ratings

(Ta = 25°C)

Item Symbol Ratings Unit

Power supply voltage VCC 36 V

Differential input voltage Vin(diff) ±VCC V

Input voltage Vin −0.3 to +VCC V

Output pin voltage Vout −0.3 to +36 V

Output current Iout *1 20 mA

DIP 625 *2

SOP 625 *3

Allowable power dissip ation

TSSOP

400 *4

Operating temperature Topr −40 to +85 °C

Storage temperature Tstg −55 to +125 °C

Notes: 1. These products can be destr oyed if the output and VCC ar e shorted together. The maximum output cu rrent is

the allowable value for continuous operation.

2. HA17339A:

These are the allowable values up to Ta = 50°C. Derate by 8.3 mW/°C above that temperature.

3. HA17339AF/ARP:

When it is mounted on glass epoxy board of 40 mm × 40 mm × 1.6 mmt with 10% wiring density, value at Ta

≤ 25°C. If Ta > 25°C, derated by 6.25 mW/°C.

When it is mounted on glass epoxy board of 40 mm × 40 mm × 1.6 mmt with 30% wiring density. If Ta >

32°C, derated by 6.70 mW/°C.

4. HA17339AT:

These are the allowable values up to Ta = 25°C. Derate by 4 mW/°C above that temperature.

Electrical Characteristics

(VCC = 5 V, Ta = 25°C)

Item Symbol Min Typ Max Unit Test Conditions

Input offset voltage VIO  2 7 mV

Output switching point:

when VO = 1.4V, RS = 0Ω

Input offset current IIO  5 50 nA  IIN(+) − IIN(−) 

Input bias current IIB  25 250 nA IIN(+) or IIN(−)

Common-mode input voltage *1 V

CM 0  V

CC−1.5 V

Supply current ICC  0.8 2 mA RL = ∞

Voltage Gain *3 A

V  (200)  V/mV RL = 15kΩ

Response time *2,3 t

R  (1.3)  µs VRL = 5V, RL = 5.1kΩ

Output sink current IO(sink) 6 16  mA VIN(−) = 1V, VIN(+) = 0, VO ≤ 1.5V

Output saturation voltage VO(sat)  200 400 mV VIN(−) = 1V, VIN(+) = 0, Iosink = 3mA

Output leakage current *3 I

LO  (0.1)  nA VIN(+) = 1V, VIN(−) = 0, VO = 5V

Notes: 1. Voltages more negative than −0.3 V are not allowed for the common-mode input voltage or for either one of

the input signal voltages.

2. The stipulated response time is the value for a 100 mV input step voltage th at has a 5 mV overdrive.

3. Design spec.

HA17339A Series

Rev.3.00 Mar 10, 2006 page 5 of 14

Test Circuits

1. Input offset voltage (VIO), input offset current (IIO), and Input bias current (IIB) test circuit

−

51k

470µ

SW2

Rf 5 k

R 20 k

SW1

Rf 5k

SW1

Off

SW2

Off

Vout

= 1

= 1.4V

= | V

1 + Rf / R

(mV)

IIO = | VO2 − VO1 |

R(1 + Rf / RS)(nA)

= | V

− V

2 ⋅ R(1 + Rf / R

)

(nA)

2. Output sat urat ion voltage (VO sat) output sink current (Iosink), and common-mode input voltage (VCM) test circuit

50 50

1.6k

SW1 SW3

Item

VOsat VC1

2V VC2

0V VC3

SW1

1SW2

1SW3

1 at

VCC = 5V

3 at

VCC = 15V

Unit

Iosink 2V 0V 1.5V 1 1 2 mA

VCM 2V −1 to

VCC 2

Switched

between

1 and 2

3 V

−

SW2

4.87k V

3. Supply current (ICC) test circuit

−

: R

= ∞

HA17339A Series

Rev.3.00 Mar 10, 2006 page 6 of 14

4. Voltage gain (AV) test circuit (RL = 15kΩ)

−

VCC

RL 15k

5050

10µ

Vin

30k

20k

10k

−V

= 20 log V

− V

IN1

− V

IN2

(dB)

5. Response time (tR) test circuit

−

5.1k

12V

SW120k

30k

P.G

Vin

24k

5 k −V

tR: RL = 5.1kΩ, a 100mV input step voltage that has a 5mV overdrive

• Wit h VIN not applied, set the switch SW to the off position and adjust VR so that VO is in the vicinity of 1.4V.

• Apply VIN and turn the switch SW on.

90%

10%

HA17339A Series

Rev.3.00 Mar 10, 2006 page 7 of 14

Characteristic Curves

010203040

Input Bias Current I

(nA)

Power-Supply Voltage V

(V)

Input Bias Current vs.

Power-Supply Voltage Characteristics

−55 −15 45 85 125

Input Bias Current I

(nA)

Ambient Temperature Ta (°C)

Input Bias Current vs.

Ambient Temperature Characteristics

−35 5 25 65 105

−55 −15 45 85 125

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

Supply Current I

(mA)

Ambient Temperature Ta (°C)

Supply Current vs.

Ambient Temperature Characteristics

010203040

1.6

1.4

1.2

1.0

0.8

0.6

Supply Current I

(mA)

Power-Supply Voltage V

(V)

Supply Current vs.

Power-Supply Voltage Characteristics

−35 5 25 65 105

= 5 V Ta = 25°C

Ta = 25°C

= ∞

= 5 V

= ∞

HA17339A Series

Rev.3.00 Mar 10, 2006 page 8 of 14

−55 −15 45 85 125

Output Sink Current Iosink (mA)

Ambient Temperature Ta (°C)

Output Sink Current vs.

Ambient Temperature Characteristics

−35 5 25 65 105

−55 −15 45 85 125

130

125

120

115

110

105

100

Voltage Gain A

(dB)

Ambient Temperature Ta (°C)

Voltage Gain vs.

Ambient Temperature Characteristics

−35 5 25 65 105

010203040

Output Sink Current Iosink (mA)

Power-Supply Voltage V

(V)

Output Sink Current vs.

Power-Supply Voltage Characteristics

010203040

130

120

110

100

Voltage Gain A

(dB)

Power-Supply Voltage V

(V)

Voltage Gain vs.

Power-Supply Voltage Characteristics

VCC = 5 V

Vin(−) = 1 V

Vin(+) = 0

Vout = 1.5 V

VCC = 5 V

RL = 15 kΩTa = 25°C

RL = 15 kΩ

HA17339A Series

Rev.3.00 Mar 10, 2006 page 9 of 14

HA17339A Application Examples

The HA17339A houses four independent comparators in a single package, and operates over a wide voltage range at

low power from a single-voltage power supply. Since the common-mode input voltage range starts at the ground

potential, the HA17339A is particularly suited for single-voltage power supply applications. This section presents

several sample HA17339A applications.

HA17339A Application Notes

1. Square-Wave Oscillator

The circuit shown in figure one has the same structure as a single-voltage power supply astable multivibrator.

Figure 2 shows the wave f orms generated by this circuit .

100k

75pF

4.3k

Vout

100k

−

HA17339A

100k

Figure 1 Square-Wave Oscillator

(2)

Horizontal: 5 V/div, Vertical: 5 µs/div, V

= 15 V

(1)

Horizontal: 2 V/div, Vertical: 5 µs/div, V

= 5 V

Figure 2 Operating Waveforms

HA17339A Series

Rev.3.00 Mar 10, 2006 page 10 of 14

2. Pulse Generator

The charge and discharge circuits in the circuit from figure 1 are separated by diodes in this circuit. (See figure 3.)

This allows the pulse width and the duty cycle to be set independently. Figure 4 shows the waveforms generated by

this circuit.

80pF

Vout

−

HA17339A

100k

IS2076

Figure 3 Pulse Generator

Horizontal: 5 V/div, Vertical: 20 µs/div, V

= 15 V

Horizontal: 2 V/div, Vertical: 20 µs/div, V

= 5 V

Figure 4 Operating Waveforms

3. Voltage Controlled Oscillator

In the circuit in figure 5, comparator A1 operates as an integrator, A2 operates as a comparator with hysteresis, and

A3 operates as the switch that controls the oscillator frequency. If the output Vout1 is at the low level, the A3 output

will go to the low level and the A1 inverting input will become a lower level than the A1 noninverting input. The A1

output will integrate this state and its output will in crease towards the high lev el. When the output of the integrator

A1 exceeds the level on the comparator A2 inverting input, A2 inverts to the high level and both the output Vout1

and the A3 output go to the high level. This causes the integrator to integrate a negative state, resulting in its output

decreasing towards the low level. Then, when the A1 output level becomes lower than the level on the A2

noninverting input, the output Vout1 is once again inverted to the low level. This operation generates a square wave

on Vout1 and a triangular wave on Vout2.

−

50k

Frequency

control

voltage

input

= 30V

+250mV < +V

< +50V

700Hz < / < 100kHz

Output 2

Output 1

100k

20k

5.1k

100k

20k

0.1µ

HA17339A

−

HA17339A

0.01µ

500p

HA17339A

−

Figure 5 Voltage Controlled Oscillator

HA17339A Series

Rev.3.00 Mar 10, 2006 page 11 of 14

4. Basic Comparator

The circuit shown in figu re 6 is a basic comparator. When the input vo ltage VIN exceeds the reference voltage VREF,

the output goes to the high level.

−

3kΩ

Vin

REF

HA17339A

Figure 6 Basic Comparator

5. Noninverting Comparator (with Hysteresis)

Assuming +VIN is 0V, when VREF is applied to th e inverting inpu t, th e outpu t will go to the low leve l (approx imately

0V). If the voltage ap p lied to +VIN is grad u ally increased , the ou tput will go h igh when the value of the no ninv erting

input, +VIN × R2/(R1 + R2), exceeds +VREF. Next, if +VIN is gradually lowered, Vout will be inverted to the low

level once again when the value of the noninverting input, (Vout – VIN) × R1/(R1 + R2), becomes lower than VREF.

With the circuit constants shown in figure 7, assuming VCC = 15V and +VREF = 6V, the following formula can be

derived, i.e. +VIN × 10M/(5.1M + 10M) > 6V, and Vout will invert from low to high when +VIN is > 9.06V.

(Vout − V

) ×

(Assuming Vout = 15V)

+ V

< 6V

+ R

When +VIN is lowered, the output will invert from high to low when +VIN < 1.41V. Therefore this circuit has a

hysteresis of 7.65V. Figure 8 shows the input characteristics.

−

+Vout

10M

5.1M

REF

+Vin

HA17339A

Figure 7 Noninverting Comparator

0 5 10 15

Output Voltage Vout (V)

Input Voltage V

(V)

= 15 V, +V

REF

= 6 V

+Vin = 0 to 10 V

Figure 8 Noninverting Comparator I/O Transfer Charac teristics

HA17339A Series

Rev.3.00 Mar 10, 2006 page 12 of 14

6. Invertin g Comparator (with Hysteresi s)

In this circuit, the output Vout inverts from high to low when +VIN > (VCC + Vout)/3. Similarly, the output Vout

inverts from low to high when +VIN < VCC/3. With the circuit constants shown in figure 9, assuming VCC = 15V and

Vout = 15V, this circuit will have a 5V hysteresis. Figure 10 shows the I/O characteristics for the circuit in figure 9.

−

Vout

+Vin

HA17339A

Figure 9 Inverting Comparator

0 5 10 15

Output Voltage Vout (V)

Input Voltage V

(V)

VCC = 15 V

Figure 10 Inverting Comparator I/O Transfer Characteris tics

7. Zero-Cross Detector (Single-Voltage Power Supply)

In this circuit, the noninverting inpu t will essentially beh eld at the poten tial determined by div iding VCC with 100kΩ

and 10kΩ resistors. When VIN is 0V or higher, the output will be low, an d when VIN is negative, Vout will invert to

the high level. (See figure 11.)

−

Vout

Vin V

5.1k

5.1k5.1k 100k100k

1S2076

10k 20M

HA17339A

Figure 11 Zero-Cross Detector

HA17339A Series

Rev.3.00 Mar 10, 2006 page 13 of 14

Package Dimensions

( Ni/Pd/Au plating )

7.62

MaxNomMin

Dimension in Millimeters

Symbol

Reference

19.2

6.3

5.06

0.51

0.56

1.30

0.19 0.25 0.31

2.29 2.54 2.79

0° 15°

20.32

7.4

0.40 0.48

2.39

2.54

814

P-DIP14-6.3x19.2-2.54 0.97g

MASS[Typ.]

DP-14AVPRDP0014AB-B

RENESAS CodeJEITA Package Code Previous Code

1.42

0.15

1.27

7.50 8.00

0.400.34

10.5

MaxNomMin

Dimension in Millimeters

Symbol

Reference

2.20

0.900.700.50

5.50

0.200.100.00

0.46

0.250.200.15

7.80

8°0°

0.12

1.15

10.06

Index mark

14 8

pMx

Terminal cross section

( Ni/Pd/Au plating )

Detail F

NOTE)

1. DIMENSIONS"*1 (Nom)"AND"*2"

DO NOT INCLUDE MOLD FLASH.

2. DIMENSION"*3"DOES NOT

INCLUDE TRIM OFFSET.

P-SOP14-5.5x10.06-1.27 0.23g

MASS[Typ.]

FP-14DAVPRSP0014DF-B

RENESAS CodeJEITA Package Code Previous Code

HA17339A Series

Rev.3.00 Mar 10, 2006 page 14 of 14

14 8

pMx

Index mark

Terminal cross section

( Ni/Pd/Au plating )

Detail F

8.65

1.08

0.25

0° 8°

6.10

0.15 0.20 0.25

0.46

0.10 0.14 0.25

3.95

0.40 0.60 1.27

1.75

Reference

Symbol

Dimension in Millimeters

Min Nom Max

9.05

0.34 0.40

6.205.80

1.27

0.15

0.635

NOTE)

1. DIMENSIONS"*1 (Nom)"AND"*2"

DO NOT INCLUDE MOLD FLASH.

2. DIMENSION"*3"DOES NOT

INCLUDE TRIM OFFSET.

P-SOP14-3.95x8.65-1.27 0.13g

MASS[Typ.]

FP-14DNVPRSP0014DE-A

RENESAS CodeJEITA Package Code Previous Code

0.83

0.10

0.65

6.20 6.60

0.200.15

5.30

MaxNomMin

Dimension in Millimeters

Symbol

Reference

1.10

0.6

0.50.4

4.40

0.100.070.03

0.25

0.200.150.10

6.40

8°0°

0.13

1.0

5.00

Index mark

pMx

14 8

Terminal cross section

( Ni/Pd/Au plating )

Detail F

NOTE)

1. DIMENSIONS"*1 (Nom)"AND"*2"

DO NOT INCLUDE MOLD FLASH.

2. DIMENSION"*3"DOES NOT

INCLUDE TRIM OFFSET.

P-TSSOP14-4.4x5-0.65 0.05g

MASS[Typ.]

TTP-14DVPTSP0014JA-B

RENESAS CodeJEITA Package Code Previous Code

Keep safety first in your circuit designs!

1. Renesas Technology Corp. puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble

may occur with them. Trouble with semiconductors may lead to personal injury, fire or property damage.

Remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placement of substitutive, auxiliary

circuits, (ii) use of nonflammable material or (iii) prevention against any malfunction or mishap.

Notes regarding these materials

1. These materials are intended as a reference to assist our customers in the selection of the Renesas Technology Corp. product best suited to the customer's

application; they do not convey any license under any intellectual property rights, or any other rights, belonging to Renesas Technology Corp. or a third party.

2. Renesas Technology Corp. assumes no responsibility for any damage, or infringement of any third-party's rights, originating in the use of any product data,

diagrams, charts, programs, algorithms, or circuit application examples contained in these materials.

3. All information contained in these materials, including product data, diagrams, charts, programs and algorithms represents information on products at the time of

publication of these materials, and are subject to change by Renesas Technology Corp. without notice due to product improvements or other reasons. It is

therefore recommended that customers contact Renesas Technology Corp. or an authorized Renesas Technology Corp. product distributor for the latest product

information before purchasing a product listed herein.

The information described here may contain technical inaccuracies or typographical errors.

Renesas Technology Corp. assumes no responsibility for any damage, liability, or other loss rising from these inaccuracies or errors.

Please also pay attention to information published by Renesas Technology Corp. by various means, including the Renesas Technology Corp. Semiconductor

home page (http://www.renesas.com).

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