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Part Number LTC1735I

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1
LTC1735
High Efficiency
Synchronous Step-Down
Switching Regulator
The LTC
®
1735 is a synchronous step-down switching
regulator controller that drives external N-channel power
MOSFETs using a fixed frequency architecture. Burst
Mode
TM
operation provides high efficiency at low load
currents. The precision 0.8V reference is compatible with
future microprocessor generations. OPTI-LOOP compen-
sation allows the transient response to be optimized over
a wide range of output capacitance and ESR values.
The operating frequency (synchronizable up to 500kHz) is
set by an external capacitor allowing maximum flexibility
in optimizing efficiency. A forced continuous control pin
reduces noise and RF interference and can assist second-
ary winding regulation by disabling Burst Mode operation
when the main output is lightly loaded.
Protection features include internal foldback current lim-
iting, output overvoltage crowbar and optional short-
circuit shutdown. Soft-start is provided by an external
capacitor that can be used to properly sequence supplies.
The operating current level is user-programmable via an
external current sense resistor. Wide input supply range
allows operation from 3.5V to 30V (36V maximum).
s
Dual N-Channel MOSFET Synchronous Drive
s
Synchronizable/Programmable Fixed Frequency
s
Wide V
IN
Range: 3.5V to 36V Operation
s
V
OUT
Range: 0.8V to 6V
s
OPTI-LOOP
TM
Compensation Minimizes C
OUT
s
±
1% Output Voltage Accuracy
s
Internal Current Foldback
s
Output Overvoltage Crowbar Protection
s
Latched Short-Circuit Shutdown Timer
with Defeat Option
s
Very Low Dropout Operation: 99% Duty Cycle
s
Forced Continuous Control Pin
s
Optional Programmable Soft-Start
s
Remote Output Voltage Sense
s
Logic Controlled Micropower Shutdown: I
Q
< 25
µ
A
s
LTC1435 Pin Compatible with
Minor Component Changes
s
Available in 16-Lead Narrow SSOP and SO Packages
Figure 1. High Efficiency Step-Down Converter
, LTC and LT are registered trademarks of Linear Technology Corporation.
Burst Mode and OPTI-LOOP are trademarks of Linear Technology Corporation.
s
Notebook and Palmtop Computers, PDAs
s
Cellular Telephones and Wireless Modems
s
DC Power Distribution Systems
C
OSC
RUN/SS
I
TH
SGND
V
OSENSE
SENSE
­
SENSE
+
TG
BOOST
SW
V
IN
INTV
CC
BG
PGND
LTC1735
C
B
0.22
µ
F
100pF
C
C
330pF
R
C
33k
R
SENSE
0.005
V
OUT
1.6V
9A
C
OUT
: PANASONIC EEFUEOG181R
C
IN
: MARCON THCR70E1H226ZT
L1: PANASONIC ETQP6FZR0HFA
R
SENSE
: IRC LRF2010-01-R005J
1000pF
C
SS
0.1
µ
F
C
OSC
47pF
+
4.7
µ
F
+
C
OUT
180
µ
F
4V
×
4
SP
C
IN
22
µ
F
50V
M1
FDS6680A
M2
FDS6680A
1735 F01
D
B
CMDSH-3
R1
20k
1%
R2
20k
1%
D1
MBRS340T3
V
IN
5V TO 24V
L1
2
µ
H
C
C2
100pF
FEATURES
DESCRIPTIO
U
APPLICATIO S
U
TYPICAL APPLICATIO
U
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2
LTC1735
ABSOLUTE AXI U
RATI GS
W
W
W
U
PACKAGE/ORDER I FOR ATIO
U
U
W
(Note 1)
Input Supply Voltage (V
IN
).........................36V to ­ 0.3V
Topside Driver Supply Voltage (BOOST)....42V to ­ 0.3V
Switch Voltage (SW) ....................................36V to ­ 5V
EXTV
CC
Voltage ...........................................7V to ­ 0.3V
Boosted Driver Voltage (BOOST ­ SW) .......7V to ­ 0.3V
SENSE
+
, SENSE
­
Voltages .......... 1.1 (INTV
CC
) to ­ 0.3V
FCB Voltage ............................(INTV
CC
+ 0.3V) to ­ 0.3V
I
TH
, V
OSENSE
Voltages ............................... 2.7V to ­ 0.3V
RUN/SS Voltages .........................................7V to ­ 0.3V
Peak Driver Output Current <10
µ
s (TG, BG) .............. 3A
INTV
CC
Output Current ......................................... 50mA
Operating Ambient Temperature Range
LTC1735C ............................................... 0
°
C to 85
°
C
LTC1735I ............................................ ­ 40
°
C to 85
°
C
Junction Temperature (Note 2) ............................. 125
°
C
Storage Temperature Range ................. ­ 65
°
C to 150
°
C
Lead Temperature (Soldering, 10 sec).................. 300
°
C
ELECTRICAL CHARACTERISTICS
The
q
denotes specifications which apply over the full operating
temperature range, otherwise specifications are at T
A
= 25
°
C. V
IN
= 15V, V
RUN/SS
= 5V unless otherwise noted.
ORDER PART
NUMBER
LTC1735CGN
LTC1735CS
LTC1735IGN
LTC1735IS
Consult factory for Military grade parts.
T
JMAX
= 125
°
C,
JA
= 130
°
C/W (GN)
T
JMAX
= 125
°
C,
JA
= 110
°
C/W (S)
TOP VIEW
S PACKAGE
16-LEAD PLASTIC SO
GN PACKAGE
16-LEAD NARROW
PLASTIC SSOP
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
C
OSC
RUN/SS
I
TH
FCB
SGND
V
OSENSE
SENSE
­
SENSE
+
TG
BOOST
SW
V
IN
INTV
CC
BG
PGND
EXTV
CC
GN PART MARKING
1735
1735I
SYMBOL
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
Main Control Loop
I
VOSENSE
Feedback Current
(Note 3)
­ 4
­ 25
nA
V
OSENSE
Feedback Voltage
(Note 3)
q
0.792
0.8
0.808
V
V
LINEREG
Reference Voltage Line Regulation
V
IN
= 3.6V to 30V (Note 3)
0.001
0.02
%/V
V
LOADREG
Output Voltage Load Regulation
(Note 3)
Measured in Servo Loop; V
ITH
= 0.7V
q
0.1
0.3
%
Measured in Servo Loop; V
ITH
= 2V
q
­ 0.1
­ 0.3
%
DF Max
Maximum Duty Factor
In Dropout
98
99.4
%
g
m
Transconductance Amplifier g
m
1.3
mmho
V
FCB
Forced Continuous Threshold
q
0.76
0.8
0.84
V
I
FCB
Forced Continuous Current
V
FCB
= 0.85V
­ 0.17
­ 0.3
µ
A
V
OVL
Feedback Overvoltage Lockout
q
0.84
0.86
0.88
V
I
Q
Input DC Supply Current
(Note 4)
Normal Mode
450
µ
A
Shutdown
V
RUN/SS
= 0V
15
25
µ
A
V
RUN/SS
Run Pin Start Threshold
V
RUN/SS
, Ramping Positive
1.0
1.5
1.9
V
V
RUN/SS
Run Pin Begin Latchoff Threshold
V
RUN/SS
, Ramping Positive
4.1
4.5
V
I
RUN/SS
Soft-Start Charge Current
V
RUN/SS
= 0V
­ 0.7
­ 1.2
µ
A
I
SCL
RUN/SS Discharge Current
Soft Short Condition, V
OSENSE
= 0.5V,
0.5
2
4
µ
A
V
RUN/SS
= 4.5V
UVLO
Undervoltage Lockout
Measured at V
IN
Pin (V
IN
Ramping Down)
q
3.5
3.9
V
V
SENSE(MAX)
Maximum Current Sense Threshold
V
OSENSE
= 0.7V
q
60
75
85
mV
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3
LTC1735
SYMBOL
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
Note 1: Absolute Maximum Ratings are those values beyond which the life
of a device may be impaired.
Note 2: T
J
is calculated from the ambient temperature T
A
and power
dissipation P
D
according to the following formulas:
LTC1735CS, LTC1735IS: T
J
= T
A
+ (P
D
· 110
°
C/W)
LTC1735CGN, LTC1735IGN: T
J
= T
A
+ (P
D
· 130
°
C/W)
Note 3: The LTC1735 is tested in a feedback loop that servos V
OSENSE
to
the balance point for the error amplifier (V
ITH
= 1.2V).
Note 4: Dynamic supply current is higher due to the gate charge being
delivered at the switching frequency. See Applications Information.
Note 5: Oscillator frequency is tested by measuring the C
OSC
charge
current (I
OSC
) and applying the formula:
f
C
pF
I
I
OSC
OSC
CHG
DIS
=
+


+




8 477 10
11
1
1
11
1
.
(
)
(
)
­
Note 6: The minimum on-time condition corresponds to an inductor peak-
to-peak ripple current
40% of I
MAX
(see Minimum On-Time
Considerations in the Applications Information section).
Note 7: Rise and fall times are measured using 10% and 90% levels.
Delay times are measured using 50% levels.
ELECTRICAL CHARACTERISTICS
The
q
denotes specifications which apply over the full operating
temperature range, otherwise specifications are at T
A
= 25
°
C. V
IN
= 15V, V
RUN/SS
= 5V unless otherwise noted.
I
SENSE
Sense Pins Total Source Current
V
SENSE
­
= V
SENSE
+
= 0V
60
80
µ
A
t
ON(MIN)
Minimum On-Time
Tested with a Square Wave (Note 6)
160
200
ns
TG Transition Time:
(Note 7)
TG t
r
Rise Time
C
LOAD
= 3300pF
50
90
ns
TG t
f
Fall Time
C
LOAD
= 3300pF
50
90
ns
BG Transition Time:
(Note 7)
BG t
r
Rise Time
C
LOAD
= 3300pF
50
90
ns
BG t
f
Fall Time
C
LOAD
= 3300pF
40
80
ns
TG/BG t
1D
Top Gate Off to Synchronous
C
LOAD
= 3300pF Each Driver
100
ns
Gate On Delay Time
TG/BG t
2D
Synchronous Gate Off to Top
C
LOAD
= 3300pF Each Driver
70
ns
Gate On Delay Time
Internal V
CC
Regulator
V
INTVCC
Internal V
CC
Voltage
6V < V
IN
< 30V, V
EXTVCC
= 4V
5.0
5.2
5.4
V
V
LDO(INT)
Internal V
CC
Load Regulation
I
CC
= 0 to 20mA, V
EXTVCC
= 4V
0.2
1
%
V
LDO(EXT)
EXTV
CC
Drop Voltage
I
CC
= 20mA, V
EXTVCC
= 5V
130
200
mV
V
EXTVCC
EXTV
CC
Switchover Voltage
I
CC
= 20mA, EXTV
CC
Ramping Positive
q
4.5
4.7
V
V
EXTVCC(HYS)
EXTV
CC
Hysteresis
0.2
V
Oscillator
f
OSC
Oscillator Frequency
C
OSC
= 43pF (Note 5)
265
300
335
kHz
f
H
/f
OSC
Maximum Sync Frequency Ratio
1.3
f
FCB(SYNC)
FCB Pin Threshold For Sync
Ramping Negative
0.9
1.2
V
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4
LTC1735
TYPICAL PERFOR A CE CHARACTERISTICS
U
W
Efficiency vs Load Current
(3 Operating Modes)
Efficiency vs Load Current
Efficiency vs Input Voltage
LOAD CURRENT (A)
0.001
EFFICIENCY (%)
60
70
80
BURST
SYNC
CONT
10
1735 G01
50
40
20
0.01
0.1
1
30
100
90
V
IN
= 10V
V
OUT
= 3.3V
R
S
= 0.01
f
O
= 300kHz
EXTV
CC
OPEN
LOAD CURRENT (A)
0.01
0.1
1
10
EFFICIENCY (%)
1735 G02
100
90
80
70
60
50
40
V
IN
= 5V
EXTV
CC
= 5V
FIGURE 1
V
IN
= 24V
V
IN
= 15V
INPUT VOLTAGE (V)
0
70
EFFICIENCY (%)
75
80
85
90
100
5
10
15
20
1735 G03
25
30
95
EXTV
CC
= 5V
V
OUT
= 1.6V
FIGURE 1
I
OUT
= 5A
I
OUT
= 0.5A
Efficiency vs Input Voltage
Load Regulation
V
IN
­ V
OUT
Dropout Voltage
vs Load Current
INPUT VOLTAGE (V)
0
70
EFFICIENCY (%)
75
80
85
90
100
5
10
15
20
1735 G04
25
30
95
EXTV
CC
OPEN
V
OUT
= 1.6V
FIGURE 1
I
OUT
= 5A
I
OUT
= 0.5A
LOAD CURRENT (A)
0
NORMALIZED V
OUT
(%)
­0.2
­0.1
8
1735 G05
­0.3
­0.4
2
4
6
10
0
FCB = 0V
V
IN
= 15V
FIGURE 1
LOAD CURRENT (A)
0
0
V
IN
­ V
OUT
(mV)
500
400
300
200
100
2
4
6
8
1735 G06
10
R
SENSE
= 0.005
V
OUT
= 5V ­ 5% DROP
Input and Shutdown Currents
vs Input Voltage
INTV
CC
Line Regulation
INPUT VOLTAGE (V)
0
5
0
INPUT CURRENT (
µ
A)
SHUTDOWN CURRENT (
µ
A)
200
500
10
20
25
1735 G07
100
400
300
0
40
100
20
80
60
15
30
35
EXTV
CC
OPEN
SHUTDOWN
EXTV
CC
= 5V
INPUT VOLTAGE (V)
0
INTV
CC
VOLTAGE (V)
4
5
6
15
25
1735 G08
3
2
5
10
20
30
35
1
0
1mA LOAD
EXTV
CC
Switch Drop
vs INTV
CC
Load Current
INTV
CC
LOAD CURRENT (mA)
0
EXTV
CC
­ INTV
CC
(mV)
300
400
500
40
1735 G09
200
100
0
10
20
30
50
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5
LTC1735
Maximum Current Sense Threshold
vs Normalized Output Voltage
(Foldback)
TYPICAL PERFOR A CE CHARACTERISTICS
U
W
Maximum Current Sense Threshold
vs V
RUN/SS
Maximum Current Sense Threshold
vs Sense Common Mode Voltage
Maximum Current Sense Threshold
vs I
TH
Voltage
Output Current vs Duty Cycle
V
ITH
vs V
RUN/SS
SENSE Pins Total Source Current
I
TH
Voltage vs Load Current
Maximum Current Sense Threshold
vs Temperature
NORMALIZED OUTPUT VOLTAGE (%)
0
MAXIMUM CURRENT SENSE THRESHOLD (mV)
40
50
60
100
1735 G10
30
20
0
25
50
75
10
80
70
V
RUN/SS
(V)
0
0
MAXIMUM CURRENT SENSE THRESHOLD (mV)
20
40
60
80
1
2
3
4
1735 G11
5
6
V
SENSE(CM)
= 1.6V
COMMON MODE VOLTAGE (V)
0
MAXIMUM CURRENT SENSE THRESHOLD (mV)
72
76
80
4
1735 G12
68
64
60
1
2
3
5
V
ITH
(V)
0
MAXIMUM CURRENT SENSE THRESHOLD (mV)
30
50
70
90
2
1735 G13
10
­10
20
40
60
80
0
­20
­30
0.5
1
1.5
2.5
DUTY CYCLE (%)
0
0
AVERAGE OUTPUT CURRENT I
OUT
/I
MAX
(%)
20
40
60
80
100
20
40
60
80
1735 G14
100
f
SYNC
= f
O
I
OUT
/I
MAX
(SYNC)
I
OUT
/I
MAX
(FREE RUN)
V
RUN/SS
(V)
0
0
V
ITH
(V)
0.5
1.0
1.5
2.0
2.5
1
2
3
4
1735 G15
5
6
V
OSENSE
= 0.7V
V
SENSE
COMMON MODE VOLTAGE (V)
0
I
SENSE
(
µ
A)
0
1735 G16
­50
­100
2
4
50
100
6
LOAD CURRENT (A)
0
0
I
TH
VOLTAGE (V)
0.5
1.0
1.5
2.0
2.5
1
2
3
4
1735 G17
5
6
V
IN
= 10V
V
OUT
= 3.3V
R
SENSE
= 0.01
f
O
= 300kHz
CONTINUOUS
MODE
Burst Mode
OPERATION
SYNCHRONIZED f = f
O
TEMPERATURE (
°
C)
­40
60
MAXIMUM CURRENT SENSE THRESHOLD (mV)
65
70
75
80
­15
10
35
60
1735 G18
85
110
135
V
SENSE(CM)
= 1.6V