IOR IR2159S, IR21591S User Manual

Preliminary Data Sheet No. PD60169-E

DIMMING BALLAST CONTROL IC

Features

Ballast control and half-bridge driver in one IC

•

T ransf ormer-less lamp power sensing

•

Closed-loop lamp power control

•

Closed-loop preheat current control

•

Programmable preheat time

•

Programmable preheat current

•

Programmable ignition-to-dim time

•

0.5 to 5VDC dimming control input

•

Min and max lamp power adjustments

•

Programmable minimum frequency

•

Internal current sense blanking

•

Full lamp fault protection

•

Description

Description: The IR2159/IR21591 are complete dimming ballast controllers and 600V
half-bridge drivers all in one IC. The architecture includes phase control for trans­former-less lamp power sensing and regulation which minimizes changes needed to
adapt non-dimming ballasts for dimming. Externally programmable features such as
preheat time and current, ignition-to-dim time, and a complete dimming interface with
minimum and maximum settings provide a high degree of flexibility for the ballast
design engineer. Protection from failure of a lamp to strike , filament failures, thermal
overload, or lamp failure during normal operation, as well as an automatic restart
function, have been included in the design. The heart of this control IC is a voltage­controlled oscillator with externally programmable minimum frequency. The IR2159/
IR21591 are available in both 16 pin DIP and 16 pin narrow body SOIC packages.

Brown-out protection

•

Automatic restart

•

Micro-power startup

•

Zener clamped V cc

•

Over-temperature protection

•

16-pin DIP and SOIC package types

•

Parameter IR2159 IR21591

Deadtime 1.8us 1.0us
Frequency
Range

IR2159

IR21591

See

Graph 3

Packages

16 Lead SOIC
(narrow body)

(S)
(S)

See
Graph 4

16 Lead PDIP

T ypical Connection

+ Rectified AC Line

+ DC Bus

0.5 to 5VDC

- DC Bus

R

VAC

R

VDC

C

VDC

1

C

VCO

C

PH

R

DIM

R

MAX

R

MIN

R

FMIN

R

IPH

VDC

2

VCO

3

CPH

DIM

5

MAX

6

MIN

7

FMIN

8 9

IPH

R

PULL-UP

16

HO

15

VS

14

VB

134

VCC

12

COM

11

LO

10

CS

SD

R

CS

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Single Lamp Dimmable

IR2159/IR21591

(S)

Absolute Maximum Ratings

Absolute maximum ratings indicate sustained limits beyond which damage to the device may occur. All voltage
parameters are absolute voltages referenced to COM, all currents are defined positive into any lead. The thermal
resistance and power dissipation ratings are measured under board mounted and still air conditions.

Symbol Definition Min. Max. Units

V

B

V

S

V

HO

V

LO

I

OMAX

V

VCO

I

CPH

V

IPH

V

DIM

V

MAX

V

MIN

V

CS

I

SD

I

CC

dV/dt Allowable offset voltage slew rate - 50 50 V/ns

P

D

Rth

JA

T

J

T

S

T

L

High side floating supply voltage -0.3 625
High side floating supply offset voltage VB - 25 VB + 25
High side floating output voltage VS - 0.3 V

B

+ 0.3
Low side output voltage -0.3 VCC + 0.3
Maximum allowable output current (either output) -500 500
due to external power transistor miller effect

mA

Voltage controlled oscillator input v oltage -0.3 6.0 V
CPH current -5 5 mA
IPH voltage -0.3 5.5
Dimming control pin input voltage -0.3 5.5
Maximum lamp power setting pin input voltage -0.3 5.5

V

Minimum lamp power setting pin input voltage -0.3 5.5
Current sense input voltage -0.3 5.5
Shutdown pin current -5 5
Supply current (note 1) — 25

Package power dissipation @ TA ≤ +25°C (16 pin DIP) — 1.60
P

D

(T

=

JMAX-TA

)/Rth

JA

(16 pin SOIC) — 1.25

Thermal resistance, junction to ambient (16 pin DIP) — 7 5

(16 pin SOIC) — 11 5

mA

W

o

C/W

Junction temperature -55 15 0
Storage temperature -55 15 0

o

Lead temperature (soldering, 10 seconds) — 300

V

C

Note 1: This IC contains a zener clamp structure between the chip VCC and COM which has a nominal breakdown

voltage of 15.6V (V
power source greater than the diode clamp voltage (V

). Please note that this supply pin should not be driven by a DC, low impedance

CLAMP

) as specified in the Electrical Characteristics

CLAMP

section.

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IR2159/IR21591

(S)

Recommended Operating Conditions

For proper operation the device should be used within the recommended conditions.

Symbol Definition Min. Max. Units

V

BS

V

S

V

CC

I

CC

V

VCO VCO pin voltage

V

DIM

V

MAX

V

MIN

R

FMIN

I

SD

I

CS

T

J

High side floating supply voltage VCC - 0.7 V
Steady state high side floating supply offset voltage -1 600
Supply voltage V
Supply current note 2 10 mA

DIM pin voltage 0 5
MAX pin current (note 3) -750 0
MIN pin voltage 1 3 V

Minimum frequency setting resistance 10 1 00
Shutdown pin current - 1 1
Current sensing pin current -1 1
Junction temperature -40 125

CCUV+VCLAMP (15.6)

05

CLAMP

V

V

µA

kΩ

mA

o

C

Note 2: Enough current should be supplied into the VCC lead to keep the internal 15.6V zener clamp diode on this lead
Note 3: The MAX lead is a voltage-controlled current source. For optimum dim interface current mirror performance,

regulating its voltage, V
this current should be kept between 0 and 750µA.

CLAMP

.

Electrical Characteristics

VCC = VBS = V
R

= 56k, V

MIN

Symbol Definition Min. Typ. Max. Units Test Conditions

Supply Characteristics

V

CCUV+ VCC

V

CCHYS VCC

I

QCCUV

I

QCCFLT

I

QCCFMIN VCC

I

QCCFMAX VCC

I

QCCFMIN VCC

I

QCCFMAX VCC

V

CLAMP VCC

= 14V +/- 0.25V, VCS = 0.5V, VSD = 0.0V, R

BIAS

= 0.0V, C

CPH

supply undervoltage positive going 12.0 12.5 13.0

threshold

supply undervoltage lockout hysteresis 1.5 1.6 1.7
UVLO mode quiescent current — 200 — VCC = 10V
Fault-mode quiescent current — 240 — SD=5V, CS=2V, or

supply current @ FMIN (IR2159) — 5.6 — V

supply current @ FMAX (IR2159) — 6.6 — V

supply current @ FMIN (IR21591) — 5.4 — V

supply current @ FMAX (IR21591) — 6.8 — V

zener shunt clamp voltage 14.5 15.6 16.5 V ICC = 10mA

= 1000pF, TA = 25oC unless otherwise specified.

LO,HO

FMIN

= 40k, C

VCO

= 10 nF, V

= 0.0V, R

DIM

V

µA

mA

MAX

Tj > TSD

VCO
VCO
VCO
VCO

= 33k,

= 0V
= 5V
= 0V
= 5V

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IR2159/IR21591

(S)

Electrical Characteristics (cont.)

VCC = VBS = V
R

= 56k, V

MIN

Symbol Definition Min. Typ. Max. Units Test Conditions

Floating Supply Characteristics

I

QBS0

I

QBS1

V

BSMIN

I

LK

Oscillator I/O Characteristics

f

vco

f

vco

d Gate drive outputs duty cycle
V

VCOFLT

IVCOPH Preheat mode VCO pin discharge current
IVCODIM Dim mode VCO pin discharge current

= 14V +/- 0.25V, VCS = 0.5V, VSD = 0.0V, R

BIAS

= 0.0V, C

TPH

Quiescent VBS supply current — 0 — VHO = V
Quiescent VBS supply current —
Minimum required VBS v oltage for proper
HO functionality
Offset supply leakage current — — 50

VCO frequency range (IR2159) — 25 —

(See graph 3) —

VCO frequency range (IR21591) — 30 —

(See graph 4) —

Fault-mode VCO pin voltage (UVLO,
shutdown, over-current/temp.)

= 1000pF, TA = 25oC unless otherwise specified.

LO,HO

= 40k, C

FMIN

— 4

—
—

—

1.0

—

VCO

30

95

230
50

5 V

16.0

= 10 nF, V

—V
5 V

—

—
—

—
—

= 0.0V, R

DIM

µA

µA

kHz

% V

µA

MAX

= V

HO

VB = VS = 600V

V

=0V, RFMIN=39KΩ

VCO

V

=5V, RFMIN=10KΩ

VCO

V

=0V, RFMIN=68KΩ

VCO

V

=5V, RFMIN=10KΩ

VCO

VCO

VCPH < 5V

= 33k,

S
B

= 0V

IVCOPK
t

DTLO

t

DTHO

t

DTLO

t

DTHO

Amplitude control VCO pin charging current — 60.0 —
LO output deadtime (IR2159)
HO output deadtime (IR2159)
LO output deadtime (IR21591)
HO output deadtime (IR21591)

— 1.8 —
— 1.8 —
— 1.0 —
— 1.0 —

µA

µs

V

CPH

< 5V, V

CS

Gate Driver Output Characteristics

VOL Low-level output voltage — — 100
VOH High-level output voltage — — 100 V
tr Turn-on rise time — — 150

tf T urn-off fall time

—

—

100

4 www.irf.com

mV

ns

BIAS

- Vo

>

V

IPH

IR2159/IR21591

(S)

Electrical Characteristics (cont.)

VCC = VBS = V
R

= 56k, V

MIN

Symbol Definition Min. Typ. Max. Units Test Conditions

Preheat Characteristics

ICPH CPH pin charging current
VCPHIGN CPH pin ignition mode threshold voltage

VCPHCLMP CPH pin clamp voltage —
IIPH IPH pin DC source current — 25.0 — µAIIPH = 1/RFMIN
VCSTH Peak preheat current regulation threshold — 0.7 — V VCSTH =(IIPH) x (RIPH)
VCPHFLT CPH pin voltage during UVLO or fault —

Ignition Characteristics

V

CSTH

Protection Characteristics

V

SDTH+

V

VDCTH+

V

SDHYS

V

VDCHYS

V

SDCLMP

V

CSTH

T

SD

= 14V +/- 0.25V, VCS = 0.5V, VSD = 0.0V, R

BIAS

= 0.0V, C

TPH

Peak over current threshold — 1.6 — V VCPH < 5V

Rising shutdown pin threshold voltage — 2.0 —
Rising VDC pin threshold voltage — 5. 1 —
SD threshold hysteresis — 150 — mV
VDC threshold hysteresis — 2. 1 —
SD pin clamp voltage — 7. 6 — ISD = 100mA
Peak ov er-current latch threshold voltage — 1.6 —
Thermal shutdown junction temperature —

= 1000pF, TA = 25oC unless otherwise specified.

LO,HO

—
—

FMIN

= 40k, C

1.3

5.0
10

0.0

165 —

VCO

= 10 nF, V

—
—
—

—

= 0.0V, R

DIM

µA
V

V SD = 5V, or CS = 2V,

or Tj

V

V

o

C

V

MAX

CPH

= 33k,

> TSD

>

5.1V

Phase Control

V

CSTHZX

R

FB

t

Blank

Zero-crossing threshold voltage — 0.0 — V
Phase control FB resistor (Internal) — 5.7 — kΩ
Zero-crossing internal blank time — 400 — ns

Dimming Interface

V

DIMOFF

V

DIM

V

MINMIN

V

MINMAX

V

DIMTH

V

DIMTH DIM mode VCO Threshold (IR21591)

Minimum Frequency Setting

V

FMIN

V

FMINFLT

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DIM pin offset voltage — 0.5 —
DIM pin input voltage range 0.0 — 5.0
DIM minimum reference voltage (MIN pin) — 1.0 —
DIM maximum reference voltage (MIN pin) — 3.0 —
DIM mode VCO Threshold (IR2159) — 0.5 —

— 1.1 —

FMIN pin voltage during normal operation — 5.1 — V
FMIN pin voltage during fault mode — 0.0 — V

V

= 5V

DIM

V

V

= 0V

DIM

SD = 5V, or CS = 2V,

or Tj

> TSD

IR2159/IR21591

Block Diagram

(S)

5.1V

VCC

I

R

FB

15uA

1.3uA

RQ

I

DIM

4/R

FMIN

I

/5

DIM

1/R

1.6V

FMIN

CT

V

DIMTH

10 CYCLES

IGNITION
COUNTER

IDT+I

RQ

CT

I

CT

CT

QS

REF

QS

FB

3V

5.1V

1

0

VCO

VDC

CPH

DIM

MAX

MIN

FMIN

IPH

60uA

2

1uA

1

3

10V

4

5

6

I

FMIN

7

5.1V

8

Lead Assignments & Definitions

QS

RQ

5.1V

1.0V

CT

UNDER-

VOLTAGE

DETECT

14

VB

SHIFT

PULSE

FILTER &

LATCH

400ns

DELAY

15.6V

2.0V

7.6V

16

HO

15

VS

13

VCC

11

LO

12

COM

10

CS

9

SD

LEVEL

ERR

T
R1
R2 Q

QS

QS

Q

RQ

RQ

OVER-

TEMP

DETECT

Pin Assignments

1

VDC

2

VCO

3

CPH

4

DIM

5

MAX

6

MIN

7

FMIN

8

IPH

16

HO

15

VS

14

VB

13

VCC

12

COM

11

LO

10

CS

9

SD

Pin # Symbol Description

Line input voltage detection
Voltage controlled oscillator Input
Preheat timing input

0.5 to 5VDC dimming control input
Maximum lamp power setting
Minimum lamp power setting

Minimum frequency setting

Shutdown input
Current sensing input
Low-side gate driver output
IC power & signal ground
Logic & low-side gate driver supply
High-side gate driver floating supply

High voltage floating return
High-side gate driver output

15

10
11
12
13
14

16

1
2
3
4
5
6
7
8
9

VDC

VCO
CPH

DIM

MAX

MIN

FMIN

IPH Peak preheat current reference

SD
CS
LO

COM

VCC

VB
VS

HO

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State Diagram

(

g)

(

)

Power Turned On

UVLO Mode

1/2-Bridge Off
IQCC=200mA

CPH=0V

Oscillator Off

IR2159/IR21591

(S)

SD > 2.0V

(Lamp Removal)

or

VCC < 10.9V

(Power Turned Off)

FAULT Mode

Fault Latch Set

1/2-Bridge Off

I

=240µA

QCC

CPH=0V

VCC=15.6V

Oscillator Off

CS > V

CSTH

(Over-Current or Hard Switching)

or

TJ > 165C

(Over-Temperature)

TJ > 165C

(Over-Temperature)

CS > V

CSTH

Failure to Strike Lamp

or Hard Switchin

or

TJ> 165C

Over-Temperature

(1.6V)

(1.6V)

PREHEAT Mode

1/2-BridgeOscillator On

V

(Peak Current Control)

CSPK+VIPH

CPH Charging@I

DIM+Open Circuit

Over-Current Disabled

IGNITION Mode

fPH ramps to fMIN

CPH Charging@I

DIM=Open Circuit

Over-Current Enabled

DIM Mode

PhaseCS=Phase

DIM=CPH

Over-Current Enabled

and

and

and

+1µA

+1µA

REF

DIMTH

(UV+)

(Bus OK)

(Lamp OK)

(T

jmax

VCC > 12.5V

VDC > 5.1V

SD < 1.7V

TJ < 165C

PH

CPH > 5.1V

(End of PREHEAT Mode)

PH

VCO < V

(End of IGNITION Mode)

VCC < 10.9V

(VCC Fault or Power Down)

or

VDC < 3.0V

(dc Bus/ac Line Fault or Power Down)

or

SD > 2.0V

)

(Lamp Fault or Lamp Removal)

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IR2159/IR21591

(S)

Timing Diagram

Non-strike fault condition with lamp exchange

VCC

15.6V

UVLO+
UVLO-

VDC

VDCTH+

VDCTH-

CPH

5.1V
V

DIM

VCO

SD

HO

LO

CS

1.6V

V

5V

5V

IPH

PH FLT

IGN

SD PH

IGN

DIM UVLOUVLO

f

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