RICOH R1280D002A-TR, R1280D002B-TR, R1280D002C-TR Datasheet

2001.6.16

2CH PWM DC/DC Controller

R1280D002X Series

OUTLINE

■■■■

The R1280D002X Series are 2-channel PWM Step-up (as Channel 1)/Inverting (as Channel 2) DC/DC converter
controllers with CMOS process.

Each of the R1280D002X Series consists of an oscillator, a PWM control circuit, a reference voltage unit, an error
amplifier, a reference current unit, a protection circuit, and an under voltage lockout (UVLO) circuit. A high efficiency
Step-up/Inverting DC/DC converter can be composed of this IC with inductors, diodes, power MOSFETs, resisters,
and capacitors. Each Output Voltage can be adjustable with external resistors, while soft-start time can be adjustable
with external capacitors..
Maximum Duty Cycle of R1280D002A and C series can be also adjustable with external resistors.
Maximum Duty Cycle of R1280D002B is built-in as 90%(TYP.).
When CE pin of R1280D002B is set at GND level, this IC turns off external power MOSFETs of Step-up/Inverting as
Standby-mode.

Standby current is typically 0µA.

As for a protection circuit, if Maximum duty cycle of either Step-up DC/DC converter side or Inverting DC/DC
converter side is continued for a certain time, the R1280D Series latch both external drivers with their off state by its
Latch-type protection circuit. Delay time for protection is internally fixed typically at 100ms. To release the protection
circuit, restart with power-on (Voltage supplier is equal or less than UVLO detector threshold level), or as for
R1280D002B, once after making the circuit be stand-by with chip enable pin and enable the circuit again.

FEATURES

■■■■

●

Input Voltage Range • • • • • • • • • • • • • 2.5V to 5.5V

● Built-in Latch-type Protection Function by monitoring duty cycle (Fixed Delay Time TYP. 100ms)

● Oscillator Frequency • • • • • • • • • • • • • 700kHz(R1280D002A,B)/200kHz(r1280D002C)

● Maximum Duty Cycle • • • • • • • • • • • • • TYP. 90%(Only applied to R1280D002B Series)

● High Reference Voltage Accuracy • • • • • • ±1.5%

● U.V.L.O. Threshold • • • • • • • • • • • TYP. 2.2V (Hysteresis: TYP. 0.1V)

● Small Package • • • • • • • • • • • • • • • • thin SON-10 (package thickness MAX. 0.9mm)

APPLICATIONS

■■■■

● Constant Voltage Power Source for portable equipment.

● Constant Voltage Power Source for LCD and CCD.

Rev. 1.10 - 1 -

BLOCK DIAGRAM

A

■■■■

●

R1280D002A/C

V

FB1

DTC1

MPOUT1

Vrefout

●

R1280D002B

OSC

CH

１

Vref1

Vrefout

V

FB2

DTC2

CH

UVLO

Latch

Delay Circuit

２

EXT1

V

IN

GND

EXT2

DTC1

V

FB1

CE

Vrefout

V

FB2

CHIP ENABLE

Vrefout

OSC

CH1

Vref1

DTC2

CH

UVLO

２

Latch

Delay Circuit

EXT1

V

IN

GND

EXT2

Rev.1.10 - 2 -

SELECTION GUIDE

(

)

■

The mask option for the ICs can be selected at the user's request. The selection can be made with designating the

part number as shown below;
R1280D002X-TR
↑

a b

Code Contents

Designation of Mask Option :

a

A version: fosc=700kHz, with External Phase Compensation for Channel 1.
B version: fosc=700kHz, with Internal Phase Compensation and standby mode.
C version: fosc=200kHz, with External Phase Compensation for Channel 1

↑

←

Part Number

b

PIN CONFIGURATION

■■■■

●

SON10

10 6

mark side

1 5

PIN DESCRIPTION

■■■■

Designation of Taping Type :
(Refer to Taping Specifications.)

●

R1280D002A/C

Pin No. Symbol Description

1 EXT1 External Transistor of Channel 1 Drive Pin (CMOS Output)

2 GND Ground Pin

3 AMPOUT1 Amplifier Output Pin of Channel 1

4 DTC1 Maximum Duty Cycle of Channel 1 Setting Pin

5V

6V

7 DTC2 Maximum Duty Cycle of Channel 2 Setting Pin

8 Vrefout Reference Output Pin

9V

10 EXT2 External Transistor of Channel 2 Drive Pin (CMOS Output)

Rev. 1.10 - 3 -

FB1

FB2

IN

Feedback pin of Channel 1

Feedback pin of Channel 2

Voltage Supply Pin of the IC

●

R1280D002B

Pin No. Symbol Description

1 EXT1 External Transistor of Channel 1 Drive Pin (CMOS Output)

2 GND Ground Pin

3 CE Chip Enable Pin

4 DTC1 Maximum Duty Cycle of Channel 1 Setting Pin

5V

6V

FB1

FB2

Feedback pin of Channel 1

Feedback pin of Channel 2

7 DTC2 Maximum Duty Cycle of Channel 2 Setting Pin

8 Vrefout Reference Output Pin

9V

IN

Voltage Supply Pin of the IC

10 EXT2 External Transistor of Channel 2 Drive Pin (CMOS Output)

ABSOLUTE MAXIMUM RATINGS

■■■■

●

R1280D002A/C

Symbol Item Rating Unit

V

IN

V

EXT1,2

V

AMPOUT1

V

DTC1,2

V

refout

V

FB1,2

I

EXT1,2

P

D

V

Pin Voltage 6.5 V

IN

V

Pin Output Voltage

EXT1,2

AMPOUT1 Pin Voltage
DTC1,2 Pin Voltage
V

REFOUT

V

FB1,VFB2

Pin Voltage

EXT1,2 Pin Output Current

Power Dissipation 250 mW
Topt Operating Temperature Range -40 to +85
Tstg Storage Temperature Range -55 to +125

Pin Voltage

-0.3∼V

-0.3∼V

-0.3∼V

-0.3∼V

-0.3∼V

±

50

IN

IN

IN

IN

IN

+0.3
+0.3
+0.3
+0.3
+0.3

V
V
V
V
V

mA

°

C

°

C

●

R1280D002B

Symbol Item Rating Unit

V

IN

V

EXT1,2

V

CE

V

DTC1,2

V

refout

V

FB1,2

I

EXT1,2

P

D

Topt Operating Temperature Range -40 to +85
Tstg Storage Temperature Range -55 to +125

V

Pin Voltage 6.5 V

IN

V

Pin Output Voltage

EXT1,2

CE Pin Voltage

DTC1,2 Pin Voltage

V

REFOUT

V

FB1,VFB2

Pin Voltage

Pin Voltage

EXT1,2 Pin Output Current

-0.3∼V

-0.3∼V

-0.3∼V

-0.3∼V

-0.3∼V

±

50

IN

IN

IN

IN

IN

+0.3
+0.3
+0.3
+0.3
+0.3

V
V
V
V
V

mA

Power Dissipation 250 mW

°

C

°

C

Rev.1.10 - 4 -

ELECTRICAL CHARACTERISTICS

■

●

R1280D002A

(Topt=25°C)

Symbol Item Conditions MIN. TYP. MAX. Unit

V

V

REFOUT

I

ROUTVREFOUT

VREFOUT

∆

∆

/

VREFOUT

∆

∆

I

/

I

LIM

VREFOUT

∆

∆

/

V

VFB1

∆

Operating Input Voltage 2.5 5.5 V

IN

V

REFOUT

Voltage Tolerance

VIN=3.3V, I

=1mA 1.478 1.500 1.522 V

OUT

Output Current VIN=3.3V 20 mA

V

REFOUT

V

IN

V

REFOUT

OUT

V

REFOUT

V

REFOUT

T

Temperature Coefficient

FB1VFB1

V

FB1

∆

T

/

Line Regulation

Load Regulation

Short Current Limit VIN=3.3V, V
Voltage

Voltage VIN=3.3V 0.985 1.000 1.015 V
Voltage

ROUT

=3.3V

≤ 5.5V

IN

≤ 10mA

REFOUT

2.5V≤ V

1mA≤ I
V

IN

-40°C≤ Topt ≤ 85°C

-40°C≤ Topt ≤ 85°C

=0V 25 mA

26 mV

612 mV

±

150 ppm/°C

±

150 ppm/°C

Temperature Coefficient

I

FB1,2IFB1,2

f

OSC

I

DD1

R

EXTH1

Input Current VIN=5.5V,V

FB1

or V

=0V or 5.5V -0.1 0.1

FB2

Oscillator Frequency EXT1,2 Pins at no load, VIN=3.3V 595 700 805 kHz
Supply Current VIN=5.5V, EXT1,2 pins at no load 1.4 3.0 mA
EXT1 “H” ON Resistance VIN=3.3V, I

=-20mA 4.0 8.0

EXT

µ

A

Ω

R

EXTL1

R

EXTH2

R

EXTL2

T

DLY

V

UVLOD

V

UVLO

V

DTC10

V

DTC1100

V

DTC20

V

DTC2100

A
F

V

ICR1

I

AMPL

I

AMPH

A
F

V

ICR1

V

FB2

EXT1 “L” ON Resistance VIN=3.3V, I

EXT2 “H” ON Resistance VIN=3.3V, I

EXT2 “L” ON Resistance VIN=3.3V, I

Delay Time for Protection

=3.3V, V

V

IN

=20mA 2.7 5.0

EXT

=-20mA 4.0 8.0

EXT

=20mA 3.7 8.0

EXT

=1.1V→0V

FB1

60 100 140 ms

UVLO Detector Threshold 2.10 2.20 2.35 V
UVLO Released Voltage V

UVLOD

2.45 V

+0.10
CH1 Duty=0% VIN=3.3V 0.1 0.2 0.3 V
CH1 Duty=100% VIN=3.3V 1.1 1.2 1.3
CH2 Duty=0% VIN=3.3V 0.1 0.2 0.3 V
CH2 Duty=100% VIN=3.3V 1.1 1.2 1.3 V

CH1 Open Loop Gain VIN=3.3V 110 dB

V1

CH1 Single Gai n Frequency

T1

VIN=3.3V, AV1=0dB 1.9 MHz
Band
CH1 Input Voltage Range VIN=3.3V 0.7 to

V

IN

CH1 Sink Current VIN=3.3V, V

V

FB1=VFB1

CH1 Source Current VIN=3.3V, V

V

FB1=VFB1-

CH2 Open Loop Gain VIN=3.3V 60 dB

V2

CH2 Single Gain Frequency

T1

VIN=3.3V, AV2=0dB 3 MHz

AMPOUT1

+ 0.1V

AMPOUT1

0.1V

=1.0V,

=1.0V,

70 115

-1.4 -0.7 mA

Band
CH2 Input Voltage Range VIN=3.3V, -0.2 to

-1.3

V

IN

CH2 Input Offset Voltage VIN=3.3V, -12 12 mV

Ω
Ω
Ω

V

V

µ

A

V

Rev. 1.10 - 5 -

●

R1280D002B

(Topt=25°C)

Symbol Item Conditions MIN. TYP. MAX. Unit

V

V

REFOUT

I

ROUTVREFOUT

VREFOUT

∆

∆

/

VREFOUT

∆

∆

I

/

I

LIM

VREFOUT

∆

∆

/

V

VFB1

∆

Operating Input Voltage 2.5 5.5 V

IN

V

REFOUT

Voltage Tolerance

VIN=3.3V, I

=1mA 1.478 1.500 1.522 V

OUT

Output Current VIN=3.3V 20 mA

V

REFOUT

V

IN

V

REFOUT

OUT

V

REFOUT

V

REFOUT

T

Temperature Coefficient
V

FB1

FB1

V

FB1

∆

T

/

Line Regulation

Load Regulation

Short Current Limit VIN=3.3V, V
Voltage

Voltage VIN=3.3V 0.985 1.000 1.015 V
Voltage

ROUT

=3.3V

≤ 5.5V

IN

≤ 10mA

REFOUT

2.5V≤ V

1mA≤ I

V

IN

-40°C≤ Topt ≤ 85°C

-40°C≤ Topt ≤ 85°C

=0V 25 mA

26 mV

612 mV

±

150 ppm/°C

±

150 ppm/°C

Temperature Coefficient

I

FB1,2IFB1,2

f

OSC

I

DD1

Maxdty

R

EXTH1

Input Current VIN=5.5V,V

FB1

or V

=0V or 5.5V -0.1 0.1

FB2

Oscillator Frequency EXT1,2 Pins at no load, VIN=3.3V 595 700 805 kHz
Supply Current VIN=5.5V, EXT1,2 pins at no load 1.4 3.0 mA

Maximum Duty Cycle

EXT1 “H” ON Resistance VIN=3.3V, I

VIN=3.3V, C

DTC1,2=

EXT

1000pF 84 90 95 %

=-20mA 4.0 8.0

µ

A

Ω

R

EXTL1

R

EXTH2

R

EXTL2

T

EXT1 “L” ON Resistance VIN=3.3V, I

EXT2 “H” ON Resistance VIN=3.3V, I

EXT2 “L” ON Resistance VIN=3.3V, I

Delay Time for Protection

DLY

Tss1 Soft Start Time1 for Ch1

Tss2 Soft Start Time2 for Ch2

V

CEH

V

V

UVLOD

V

UVLO

I

CEH

I

CEL

I

STB

V

OFF2

CE “H” Input Voltage

CE “L” Input Voltage

CEL

UVLO Detector Threshold 2.10 2.20 2.35 V
UVLO Released Voltage V

CE “H” Input Current VIN= VCE =5.5V -0.1 0.1
CE “L” Input Current VIN=5.5V, VCE=0.0V -0.1 0.1
Standby Current VIN=5.5V, VCE=0.0V 0 2
Input Offset Voltage of Ch2. VIN=3.3V -12 12 mV

=20mA 2.7 5.0

EXT

=-20mA 4.0 8.0

EXT

=20mA 3.7 8.0

EXT

=3.3V, V

V

IN

=3.3V, C

V

IN

=3.3V, C

V

IN

=1.1V→0V

FB1

=0.33µF

DTC1

=0.33µF

DTC2

60 100 140 ms

10 ms

15 ms

VIN=5.5V 1.5 V

VIN=2.5V 0.3 V

UVLOD

2.45 V

+0.10

µ
µ
µ

Ω
Ω
Ω

A
A
A

Rev.1.10 - 6 -

●

R1280D002C

(Topt=25°C)

Symbol Item Conditions MIN. TYP. MAX. Unit

V

V

REFOUT

I

ROUTVREFOUT

VREFOUT

∆

∆

/

VREFOUT

∆

∆

I

/

I

LIM

VREFOUT

∆

∆

/

V

VFB1

∆

Operating Input Voltage 2.5 5.5 V

IN

V

REFOUT

Voltage Tolerance

VIN=3.3V, I

=1mA 1.478 1.500 1.522 V

OUT

Output Current VIN=3.3V 20 mA

V

REFOUT

V

IN

V

REFOUT

OUT

V

REFOUT

V

REFOUT

T

Temperature Coefficient
V

FB1

FB1

V

FB1

∆

T

/

Line Regulation

Load Regulation

Short Current Limit VIN=3.3V, V
Voltage

Voltage VIN=3.3V 0.985 1.000 1.015 V
Voltage

ROUT

=3.3V

≤ 5.5V

IN

≤ 10mA

REFOUT

2.5V≤ V

1mA≤ I

V

IN

-40°C≤ Topt ≤ 85°C

-40°C≤ Topt ≤ 85°C

=0V 25 mA

26 mV

612 mV

±

150 ppm/°C

±

150 ppm/°C

Temperature Coefficient

I

FB1,2IFB1,2

f

OSC

I

DD1

R

EXTH1

Input Current VIN=5.5V,V

FB1

or V

=0V or 5.5V -0.1 0.1

FB2

Oscillator Frequency EXT1,2 Pins at no load, VIN=3.3V 160 200 240 kHz
Supply Current VIN=5.5V, EXT1,2 pins at no load 0.7 1.2 mA
EXT1 “H” ON Resistance VIN=3.3V, I

=-20mA 4.0 8.0

EXT

µ

A

Ω

R

EXTL1

R

EXTH2

R

EXTL2

T

DLY

V

UVLOD

V

UVLO

V

DTC10

V

DTC1100

V

DTC20

V

DTC2100

A
F

V

ICR1

I

AMPL

I

AMPH

A
F

V

ICR1

V

FB2

EXT1 “L” ON Resistance VIN=3.3V, I

EXT2 “H” ON Resistance VIN=3.3V, I

EXT2 “L” ON Resistance VIN=3.3V, I

Delay Time for Protection

=3.3V, V

V

IN

=20mA 2.7 5.0

EXT

=-20mA 4.0 8.0

EXT

=20mA 3.7 8.0

EXT

=1.1V→0V

FB1

50 100 150 ms

UVLO Detector Threshold 2.10 2.20 2.35 V
UVLO Released Voltage V

UVLOD

2.45 V

+0.10
CH1 Duty=0% VIN=3.3V 0.15 0.25 0.35 V
CH1 Duty=100% VIN=3.3V 1.1 1.2 1.3
CH2 Duty=0% VIN=3.3V 0.15 0.25 0.35 V
CH2 Duty=100% VIN=3.3V 1.1 1.2 1.3 V

CH1 Open Loop Gain VIN=3.3V 110 dB

V1

CH1 Single Gain Frequency

T1

VIN=3.3V, AV1=0dB 1.9 MHz
Band
CH1 Input Voltage Range VIN=3.3V 0.7 to

V

IN

CH1 Sink Current VIN=3.3V, V

V

FB1=VFB1

CH1 Source Current VIN=3.3V, V

V

FB1=VFB1-

CH2 Open Loop Gain VIN=3.3V 60 dB

V2

CH2 Single Gain Frequency

T1

VIN=3.3V, AV2=0dB 3 MHz

AMPOUT1

+ 0.1V

AMPOUT1

0.1V

=1.0V,

=1.0V,

70 115

-1.4 -0.7 mA

Band
CH2 Input Voltage Range VIN=3.3V, -0.2 to

V

IN-1.3

CH2 Input Offset Voltage VIN=3.3V, -12 12 mV

Ω
Ω
Ω

V

V

µ

A

V

Rev. 1.10 - 7 -

Operation of Step-up DC/DC Converter and Output Current

■

Step-up DC/DC Converter makes higher output voltage than input voltage by releasing the energy accumulated
during on time of Lx Transistor on input voltage.

<Basic Circuit>

i2

OUT

I

OUT

V

C

L

Continuous Mode

ILxmax

IL

ILxmin

IN

V

GND

Discontinuous Mode

ILxmax

Inductor

i1

<Current through L>

Tf

Diode

Lx Tr

IL

ILxmin

Iconst

Ton Toff

T=1/fosc

t

Ton Toff

T=1/fosc

t

Step 1. Lx Tr. is on, then the current IL=i1 flows, and the energy is charged in L. In proportion to the on time of Lx Tr.
(Ton), IL=i1 increases from IL=ILxmin=0 and reaches ILxmax.

Step 2. When the Lx Tr. is off, L turns on Schottky Diode (SD), and IL=i2 flows to maintain IL=ILxmax.

Step 3. IL=i2 gradually decreases, and after Tf passes, IL=ILxmin=0 is true, then SD turns off. Note that in the case of
the continuous mode, before IL=ILxmin=0 is true, Toff passes, and the next cycle starts, then Lx Tr. turns on again.
In this case, ILxmin>0, therefore IL=ILxmin>0 is another starting point and ILx max increases.

With the PWM controller, switching times during the time unit are fixed. By controlling Ton, output voltage is
maintained.

Output Current and Selection of External Components

■

Output Current of Step-up Circuit and External Components
There are two modes, or discontinuous mode and continuous mode for the PWM step-up switching regulator
depending on the continuous characteristic of inductor current.

During on time of the transistor, when the voltage added on to the inductor is described as V
Therefore, the electric power, P

ON

T

PON=∫V

0

2

IN

×

t/L dt Formula 1

ON

, which is supplied with input side, can be described as in next formula.

IN

, the current is V

IN

×

t/L.

With the step-up circuit, electric power is supplied from power source also during off time. In this case, input current is
described as (V

OUT-VIN

)×t/L, therefore electric power, P

OFF

is described as in next formula.

Rev.1.10 - 8 -