LT3507AE, LT3507AI ......................... –40°C to 125°C
LT3507AH .......................................... –40°C to 150°C
Storage Temperature Range .................. –65°C to 150°C
Lead Temperature (Soldering, 10 sec)
TSSOP Only ...................................................... 300°C
pin conFiguration
TOP VIEW
BOOST3
TOP VIEW
SW1
SW1
SW3
SW3
V
IN3
V
IN3
V
IN3
SW1
SW1
31 V
IN2
30 V
IN2
29 SW2
28 SW2
27 BOOST2
39
GND
26 TRK/SS4
25 FB4
24 DRIVE
23 V
C2
22 FB2
21 TRK/SS2
20 FB3
13 14 15 16 17 18 19
RT/SYNC
BIAS
TRK/SS3
RUN1
RUN2
RUN3
V
C3
BOOST1
V
IN1
V
IN1
V
INSW
OVLO
UVLO
1
2
3
4
5
6
7
8
9
39
GND
38 SW3
37 BOOST3
36 V
IN2
35 V
IN2
34 NC
33 SW2
32 BOOST2
31 TRK/SS4
30 FB4
29 DRIVE
28 V
C2
27 NC
26 FB2
25 TRK/SS2
24 FB3
23 V
C3
22 TRK/SS3
21 BIAS
20 GND
38 37 36 35 34 33 32
BOOST1 1
V
IN1
2
V
IN1
3
V
INSW
4
OVLO 5
UVLO 6
V
C1
7
TRK/SS1 8
FB1 9
PGOOD1 10
PGOOD2 11
PGOOD3 12
V
C1
10
TRK/SS1 11
FB1 12
PGOOD1 13
PGOOD2 14
PGOOD3 15
RT/SYNC 16
RUN1 17
RUN2 18
RUN3 19
UHF PACKAGE
38-LEAD (5mm
×
7mm) PLASTIC QFN
θ
JA
= 34°C/W
EXPOSED PAD (PIN 39) IS GND, MUST BE SOLDERED TO PCB
FE PACKAGE
38-LEAD PLASTIC TSSOP
θ
JA
= 24°C/W
EXPOSED PAD (PIN 39) IS GND, MUST BE SOLDERED TO PCB
2
3507afa
For more information
www.linear.com/LT3507A
LT3507A
orDer inForMation
LEAD FREE FINISH
TAPE AND REEL
PART MARKING*
PACKAGE DESCRIPTION
TEMPERATURE RANGE
LT3507AEUHF#PBF
LT3507AEUHF#TRPBF
3507A
38-Lead (5mm
×
7mm) Plastic QFN
–40°C to 125°C
LT3507AIUHF#PBF
LT3507AIUHF#TRPBF
3507A
38-Lead (5mm
×
7mm) Plastic QFN
–40°C to 125°C
LT3507AHUHF#PBF
LT3507AHUHF#TRPBF
3507A
38-Lead (5mm
×
7mm) Plastic QFN
–40°C to 150°C
LT3507AEFE#PBF
LT3507AEFE#TRPBF
LT3507AFE
38-Lead Plastic TSSOP
–40°C to 125°C
LT3507AIFE#PBF
LT3507AIFE#TRPBF
LT3507AFE
38-Lead Plastic TSSOP
–40°C to 125°C
LT3507AHFE#PBF
LT3507AHFE#TRPBF
LT3507AFE
38-Lead Plastic TSSOP
–40°C to 150°C
Consult LTC Marketing for parts specified with wider operating temperature ranges. *The temperature grade is identified by a label on the shipping container.
For more information on lead free part marking, go to:
http://www.linear.com/leadfree/
For more information on tape and reel specifications, go to:
http://www.linear.com/tapeandreel/.
Some packages are available in 500 unit reels through
designated sales channels with #TRMPBF suffix.
electrical characteristics
PARAMETER
Minimum Operating Voltage
Input Quiescent Current
Bias Quiescent Current
Shutdown Current
Reference Voltage Line Regulation
V
C
Source Current
V
C
Sink Current
V
C
Clamp Voltage
Switching Frequency
Switching Phase
Foldback Frequency
Frequency Shift Threshold on FB
RUN Threshold
PGOOD Output Voltage Low
PGOOD Pin Leakage
PGOOD Threshold Offset
Feedback Pin Voltage
Feedback Pin Bias Current
Error Amplifier Transconductance
Error Amplifier Voltage Gain
V
C
Switching Threshold
Switch Leakage Current
Minimum Boost Voltage Above Switch (Note 4)
I
TRK/SS
V
IN1
-V
INSW
Converter 1
V
C1
to Switch Current Gain
The
l
denotes the specifications which apply over the full operating
temperature range, otherwise specifications are at T
A
= 25°C. V
IN1
, V
IN2
, V
IN3
= 12V, V
BOOST1
, V
BOOST2
, V
BOOST3
= 17V, unless
otherwise noted. (Notes 2, 7)
CONDITIONS
Internal UVLO on V
IN1
Not Switching, V
BIAS
= 3.3V
Not Switching, V
BIAS
= 3.3V
V
RUN1,2,3
= 0V
5V < V
IN1
< 36V
V
C
= 0.6V
V
C
= 0.6V
R
T
= 40.2k
SW1 to SW2,3, R
T
= 40.2k
V
FB
= 0V, R
T
= 40.2k
l
l
MIN
TYP
3.8
2
5
0.01
20
30
1.8
MAX
4
3.5
7.5
1
UNITS
V
mA
mA
µA
%/V
µA
µA
V
0.9
180
120
0.4
1
1.1
MHz
Deg
kHz
V
1.5
0.4
400
105
812
–500
V
V
nA
mV
mV
nA
µS
V/V
V
I
PGOOD
= 200µA
V
PGOOD
= 2V
V
FB
Rising
l
l
0.2
10
58
788
80
800
–50
330
500
0.9
0.01
1.8
10
2.5
µA
V
µA
V
A/V
3507afa
V
TRK/SS
= 0V
I
VINSW
= 1mA
1.25
0.35
6
For more information
www.linear.com/LT3507A
3
LT3507A
electrical characteristics
PARAMETER
Switch 1 Current Limit (Note 3)
Switch 1 V
CESAT
BOOST1 Operating Current
Converter 2
V
C2
to Switch Current Gain
Switch 2 Current Limit (Note 3)
Switch 2 V
CESAT
BOOST2 Operating Current
Converter 3
V
C3
to Switch Current Gain
Switch 3 Current Limit (Note 3)
Switch 3 V
CESAT
BOOST3 Operating Current
LDO Regulator
Feedback Pin Voltage
Feedback Pin Bias Current
Error Amplifier Voltage Gain
Line Regulation
Load Regulation
DRIVE Output Current Limit
Dropout Voltage, V
IN1
to DRIVE
Dropout Voltage, BIAS to DRIVE
Over/Undervoltage Lockout
Undervoltage Lockout Threshold
Overvoltage Lockout Threhold
Undervoltage Lockout Hysteresis Current
Overvoltage Lockout Hysteresis Current
Input Bias Current (OVLO and UVLO)
V(UVLO) < 1.2V
V(OVLO) > 1.2V
V(OVLO) = 1.0V, V(UVLO) = 1.5V
1.15
1.15
7
–7
1.20
1.20
10
–10
–100
1.25
1.25
13
–13
–200
V
V
µA
µA
nA
I
DRIVE
= 10mA, V
IN
= 5V
I
DRIVE
= 10mA, V
IN
= 5V
V
IN
from 5V to 36V
I
DRIVE
from 0.1mA to 10mA
l
l
The
l
denotes the specifications which apply over the full operating
temperature range, otherwise specifications are at T
A
= 25°C. V
IN1
, V
IN2
, V
IN3
= 12V, V
BOOST1
, V
BOOST2
, V
BOOST3
= 17V, unless
otherwise noted (Notes 2, 7)
CONDITIONS
Duty Cycle = 15%
I
SW1
= 2A (Note 6)
I
SW1
= 2A
l
MIN
4.3
TYP
5.1
400
40
4.3
MAX
6
600
60
UNITS
A
mV
mA
A/V
Duty Cycle = 15%
I
SW2
= 1.5A (Note 6)
I
SW2
= 1.5A
l
2.7
3.3
350
40
4.3
4
500
60
A
mV
mA
A/V
Duty Cycle = 15%
I
SW3
= 1.5A (Note 6)
I
SW3
= 1.5A
l
2.7
3.3
350
40
4
500
60
812
–500
A
mV
mA
mV
nA
V/V
%/V
%/mA
788
800
–150
1100
0.05
0.005
10
15
1.7
0.5
22.5
2.0
0.8
mA
V
V
Note 1:
Stresses beyond those listed under Absolute Maximum Ratings
may cause permanent damage to the device. Exposure to any Absolute
Maximum Rating condition for extended periods may affect device
reliability and lifetime.
Note 2:
The LT3507AE is guaranteed to meet performance specifications
from 0°C to 125°C junction temperature. Specifications over the –40°C
to 125°C operating junction temperature range are assured by design,
characterization and correlation with statistical process controls. The
LT3507AI is guaranteed to meet performance specifications from –40°C
to 125°C junction temperature. The LT3507AH is guaranteed over the
full –40°C to 150°C operating junction temperature range. High junction
temperatures degrade operating lifetimes. Operating lifetime is derated at
junction temperatures greater than 125°C.
Note 3:
Current limit is guaranteed by design and/or correlation to static
test. Slope compensation reduces current limit at higher duty cycles.
Note 4:
This is the minimum voltage across the boost capacitor needed to
guarantee full saturation of the internal power switch.
Note 5:
This IC includes overtemperature protection that is intended
to protect the device during momentary overload conditions.
Junction temperature will exceed the maximum operating range when
overtemperature protection is active. Continuous operation above the
specified maximum operating junction temperature may impair device
reliability.
Note 6:
Switch V
CESAT
for the FE package is guaranteed by design and/or
correlation to static test.
Note 7:
Positive currents flow into pins, negative currents flow out of pins.
Minimum and maximum specifications refer to absolute values.
Most security monitoring equipment is in working and recording state for a long time. When the environment is static, the equipment's work and recording consume power and occupy hard disk space. The a...
[i=s]This post was last edited by wgsxsm on 2014-8-25 14:26[/i] It just so happens that the company uses a Sharp memory screen, which has 128*128 pixels and is also 1.3 inches. I recently saw the very...
[i=s]This post was last edited by qwqwqw2088 on 2019-5-30 15:23[/i] [align=left][color=rgb(85, 85, 85)][font="][size=4][b]1. How to find the right chip reference design and application guide?[/b][/siz...
The case is briefly described as follows: [align=left][color=#000][font=Helvetica, Arial, sans-serif]The TFT-LCD display backlight cannot be lit by LM3S. [/font][/color][/align] When LM3S enables the ...
I referred to many people's solutions, but I finally completed it by myself! It was a tortuous process, and sometimes I felt that I was very slow to warm up and learn things! But in the end, I succeed...
Tesla and BYD, vying for dominance in the global electric vehicle market, are reportedly considering adopting Samsung's AMOLED (active-matrix organic light-emitting diode) technology for their next...[Details]
Wave soldering is a crucial electronic component soldering technique used in the production of a wide range of electronic devices, from home appliances to computers to avionics. The process is wide...[Details]
introduction
With the development of digital and network technologies, broadcasting technology has become increasingly diversified, with the most significant trend being the transition from an...[Details]
ISP devices, such as field programmable devices (FPGAs and CPLDs), do not require a programmer. Using programming kits provided by the device manufacturer, they employ a top-down modular design app...[Details]
Introduction to the principles of speech recognition technology
Automatic speech recognition (ASR) technology aims to enable computers to understand human speech and extract the textual inform...[Details]
Electric vehicles are powered by electricity, and charging is a device that supplements the vehicle's energy source. It is common to need to recharge the vehicle when driving. But can you charge th...[Details]
1. Multi-channel DAC technology bottleneck
Currently,
the development of multi-channel DAC technology focuses on two core challenges.
First, industrial applications urgently ...[Details]
Previously, Positive Motion Technology shared with you the firmware upgrade of motion controller, ZBasic program development, ZPLC program development, communication with touch screen and input/out...[Details]
We often hear about the precautions for using pure electric vehicles in winter, and many owners even develop relevant strategies, such as adopting a "charge as you go" principle for their vehicles,...[Details]
With the support and encouragement of national policies, some Internet car manufacturers have also joined the new energy vehicle manufacturing industry. From the perspective of new car manufacturer...[Details]
Electric vehicles are composed of three main components: electric motors, electric motors, and electric vehicles. Maintenance is much simpler than for gasoline-powered vehicles. Maintenance for ele...[Details]
Common Mode Semiconductor has officially launched the GM6503 series—a 5 V, 3 A synchronous step-down DC/DC power module designed for optical communications, servers, industrial applications, and FP...[Details]
introduction
In recent years, multi-touch has emerged as a new alternative to traditional human-computer interaction. It eliminates the need for keyboards and mice, enabling simultaneous inter...[Details]
Lithium-ion batteries are a key component of electric vehicles. Their high energy density enables them to store a large amount of energy in a relatively compact and lightweight package, which is cr...[Details]
MCU
京公网安备 11010802033920号
EEWORLD
