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TSM007
Primary PWM Controller
s s s s s s Current-mode PWM Controller Internal Under Voltage Protection Programmable Under Voltage High-current Output Drive Suitable for Power Mosfet Programmable Soft Start 2kV ESD Protection
DESCRIPTION
The TSM007 integrated circuit incorporates all circuitry to implement off line or DC-DC power supply applications using a fixed frequency current mode control. Based on a standard current mode PWM controller, this device includes additional features for higher integration.
N DIP-8 (Plastic Package)
D SO-8 (Plastic Package)
PIN CONNECTIONS (top view)
1 Comp 2 Brnout 3 CS 4 CT
Ss Vin Out
8 7 6
APPLICATION
s PC SMPS
Gnd 5
ORDER CODE
Part Number TSM007IN TSM007ID TSM007IDT Temperature Range 0, +95C Package DIP SO SO Packaging Tube Tube Tape & Reel
June 2004
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TSM007 1 Block Diagram
Block Diagram
Vin
50A
Internal UVLO
Standby
Vref
2 Brnout
Vin
Brown_Out
Vref_Status
725A 28V 2R 1V R Comp_Cs Cs_Latch
1 Comp
R S
Q !Q
Vin 7
3 CS
Vref
LEB 400A
Start up_Latch
R S
Q !Q
Out 6
4 CT
CT
Comp_Osc
1mA
Gnd 5
Vref
10A
8 SS
Css 4mA
Soft start
PIN DESCRIPTION
Name COMP BRNOUT CS CT GND OUT VIN SS Pin 1 2 3 4 5 6 7 8 Type Analog input Analog input Analog input Timing capacitor Power supply Analog output Power supply Timing capacitor Function Current comparator for current mode control. Undervoltage. Current sense. Sets the oscillator frequency. Signal ground. Totem pole output to direct drive a power MOSFET. Supply input voltage. Soft start.
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Absolute Maximum Ratings 2 Absolute Maximum Ratings
Symbol Vin Io Iopeak Vcomp Isinkcomp VBrnout Vcs Vct Vout Vss Pt Tstg Tj ESD
1
TSM007
DC Supply Voltage DC Supply Voltage DC output current Peak output current COMP terminal voltage COMP terminal sink current Brown out terminal voltage CS terminal voltage CT terminal voltage OUT terminal voltage SS terminal voltage Power dissipation at 25C Storage temperature Junction temperature Electrostatic Discharge
Value -0.3 to 25 0.1 1 -0.3 to 5.5 6 -0.3 to Vin -0.3 to 6.3 -0.3 to 5.0 -0.3 to Vin -0.3 to 6.4 500 -40 to 150 150 2
Unit V A A V mA V V V V V mW C C kV
1) All voltage values, except differential voltage are with respect to network ground terminal (GND).
OPERATING CONDITIONS
Symbol Vcc Toper Parameter DC Supply Conditions Operating Free Air Temperature Range Value 12 to 25 0 to 95 Unit V C
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TSM007 3 Electrical Characteristics
Symbol Oscillator Fosc Foscmax fosc1 fosc2 Ici Icd Vthct Vtlct Vct Brown out Vbr Ibr-on Vbrin Comp Icomp Avcs Vthcs PSRR Ibcs Source surrent Gain Maximum sensing voltage Power supply voltage rejection ratio Input bias current Vcomp=5V 0V Vcs 0.8V Vcomp=5V 12V Vin 25V Vcs=2V Vcs = 0 to 1 V Vcomp = 2 V Iosink=20mA Iosink=200mA Iosource=20mA Iosource=200mA CL=1nF, 10% to 90% CL=1nF, 90% to 10% Vin=5V, Iosink=1mA Threshold voltage Brown out terminal source current Input voltage Vbr=3V, 0CT 70C Oscillating frequency Maximum oscillating frequency Typical oscillating voltage stability Typical oscillating temperature stability Charge current Discharge current Upper trip point Lower trip point Amplitude Parameter Test Condition
Electrical Characteristics
Tamb = 25C, Vin=12V, Ct=1.5nF unless otherwise specified
Min Typ Max Unit
84 500 12V Vin 25V 0C Ta 70C Vct=2V Vct=2V
100
116
336 504
0.5 10 400 600 3.0 1.4 1.6
2.50 50
2.0
464 696
kHz kHz % % A A V V V V A V A
2.42 42 -0.3 0.5 2.85 0.9
2.58 58 Vin 0.950 3.15 1.1 10
0.725 3.00 1.0 70 0.5
Current sense V dB A
Leading edge blanking LEB Output VOL1 VOL2 VOH1 VOH2 tr tf VOL3 Dmax Soft start Iiss dIiss Idss VHss VLss VH VL dVuvlo Iin Istby 4/12 Source current Temperature stability Sink current Clamp voltage Low voltage UVLO top threshold UVLO bottom threshold UVLO hysteresis voltage Operating current Supply current in standby mode Vss=2V 0C Ta 70C Vss=2V, Vbr=2V Vbr=2V 8.9 7.3 dVuvlo=VH-VL CL=3.3nF, Vin=12V Vbr 1V, Vin=12V 9.5 7.9 1.6 10 250 8 7 4 4.2 10 10 12 13 Output low voltage 1 Output low voltage 2 Output high voltage 1 Output high voltage 2 Rise time Fall time UVLO saturation Maximum duty cycle 0.1 0.8 Vin-2.0 Vin-1.5 Vin-3.0 Vin-1.7 100 30 0.05 54 60 1.5 2.2 V V V V ns ns V % Delay to output 280 ns
150 60 1.1 66
0.2 10.1 8.5
A A mA V V
V V V mA A
Internal Under Voltage Lockout (UVLO)
Total current consumption 13 350
Functional Description 4 Functional Description
Vref 1.4V_3.0V
TSM007
TSM007: PWM Controller IC
Internal UVLO function
The Under Voltage Lock Out function disables the whole device when supply voltage is lower than the threshold.
CT
Comp_osc 400A
Vin
CT 725A 1mA Cs Latch Comp VF
Vref block
The Vref block provides an internal 5V reference voltage to the IC. An internal Vref status signal is active when Vref is lower than 4.7V and is used to drive the output driver low when Vref is not valid.
S R
!Q Q
VF
CS
Comp_Cs 2R
Startup latch
The startup latch is set when the IC exits from standby mode or UVLO state. It is reset when the CT capacitor is discharged for the first time.
Vcc
R
1V
UVLO
Out
Vref_Status
Out
Vref
Vref 1.4V_3.0V
Comp_osc 400A
Oscillator
A capacitor from the CT pin to GND sets the oscillating frequency.
Startup Latch
CT CT 1mA
S R
!Q Q
VCT 3V Ici=400A 1.4V Icd=600A
Out
Out
Tc
Td
Vref
400A
Vref
400A CT Icd
Current sense input
A voltage proportional to the transformer primary winding current is applied to the CS pin. The control IC uses this information to perform current mode control. The PWM function will be stopped if the CS pin voltage is greater than 1.0V. T = Tc+Td T = CTVct/Ici + CTVct/Icd Let's assume F = 1/T =100KHz ==> CT = (IcixIcd) / (FxVct(Ici+Icd)) ==> CT = 1.5nF
CT Ici 1mA CT CT
1mA
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TSM007 Soft start
A capacitor from the SS pin to GND provides the soft start function. The capacitor starts to charge when VIN reaches the UVLO threshold and Vref is good.The soft start block enables the IC to start with a progessive PWM duty cycle. The soft start period is set by the external capacitor Css. The soft start comparator drives the output driver low when the SS pin voltage is greater than the CT pin voltage minus one VF voltage..
Cs_latch CT CT VF Comp_osc
Functional Description Brown out
A voltage proportionnal to the Bulk capacitor voltage is applied to the BRNOUT pin. When this pin signal is less than 2.5V, the IC is disabled: SS and CT pins go low, Vref is disabled and the IC goes to standby mode. All bias currents are switched off. The 2.5V voltage at the negative input of comparator Comp_Brown out is still active. When Brown out voltage goes higher than 2.5V, Vref is enabled again. A startup period is started, and then a soft start occurs..
filtered Vin
R S
Q !Q
R1
Ibr = 50A
2.50V
Ibr Brown out Vcc
Comp_brown out
Vref
1.4V_3.0V
UVLO
Iiss 10A SS Iiss Css Idss 4mA Comp_SS
R2
Vref_Status
Vref
Vref 1.4V_3.0V
Comp_osc 400A
Out
CT
Out VCT-VF Iiss=10A
Startup Latch CT 1mA
S R
!Q Q
2.4V
0.8V Out
SS
Out Brown out 2.5V Ibr=50A Out
Tss = Soft start period
Tss = Cssx(Vthct-VF)/Iiss Let's assume Tss = 50ms ==> Css = TssxIiss/(Vthct-VF) ==> Css = 210nF
Let's assume BRNOUT acts for Vfiltered = 200V R2 = 15K R1 = R2(Vfiltered - UVLO) / UVLO When BRNOUT is bellow 2.5V IR2 = Vfiltered(R1+R2) When BRNOUT is above 2.5V IR2 = Ibr + Vfiltered(R1+R2) BRNOUT = R2x(Ibr + Vfiltered(R1+R2)) R1 = 1185K R2 = 167A When BRNOUT is above 2.5V IR2 = 237A BRNOUT = 3.55V
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Functional Description COMP input
This pin is connected to the current comparator for current mode control. The pin should be connected to the collector (primary side) of an optocoupler which anode (secondary side) is driven by the output of error amplifier. The COMP input is used to set the reference level for the current sense comparator. The current sense threshold is set to (Vcomp - 2 * Vbe ) / 3.
TSM007 Output driver
The OUT totem pole output is capable to sink and source more than 1.0A (peak) in order to direct drive a power MOSFET..
28V
Vin
Standby consumption
The low current value supply in stand by mode reduces the consumption ..
VFiltered
Gnd Out
Rb
R1
Rp Raux Cd D1
+
2
R2
Brnout Ss
Vin
7
Out 6
8 4 5
TSM007 CS 3 CT Gnd Comp 1
Brnout 2.5V
Out
Istby
Iin
Istby
When Brnout is below 2.5V, Vflitered below 200V the PWM is off. ==> Icc = Istby. RP = (Vfiltered-Vz)/Istby In normal mode, the Vfiltered voltage can go up to 400V. ==> Rpmax dissipation = (Vfiltered-Vin)/Rp The Iin current is provided by the auxiliary winding. Let's assume Vfiltered = 200V Rp = 620K Rpmax dissipation = 220mW
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TSM007
Fig. 1: Detailed Internal Schematic
Functional Description
Vin
Ibr 50A
Internal UVLO
Standby
Vref
2 Brnout
Vin 2.5V
Comp_Brown out
28V
Vref_Status
Icomp 725A
1 Comp
2R R
Comp_Cs Cs_Latch
1V
R S
Q
Vin
!Q Q !Q
Rb
7
3 CSVref
LEB Ici 400A
Start up_Latch
R S
Comp_Ocs Icd 1mA
Out
6
4
CT
CT
3 - 1.4V
Gnd 5
Vref
Iiss 10A Comp_SS
8 SS
Css Idss 4mA
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Functional Description Timing for PWM function
CT
TSM007 Timing for Soft Start function
CT
(COMP-2VF)/3
CT-VF
CS
Comp SS
OUT
Out
Timing at Vref rise up and shut down
Vin VH VL 9.5V 7.9V 2V
Timing at UVLO rise up and shut down
Vin VH VL 9.5V 7.9V 2V
Internal UVLO
Internal UVLO
Vref 4.7V
Brnout 2.5V
VrefStatus
Vref 4.7V
CT
3V 1.4V
VrefStatus
Startup
CT
3V 1.4V
OUT
Startup
OUT
9/12
TSM007
Fig. 2: Application schematic
Vfiltered
R7 T1 R4 C1 L1 D1 C5 + D2 Rp R5 C3 C4
Functional Description
F1
C6
L2 D5
Vout+
+ C9
+ C10
Gnd D3 R6 Raux
+ C7
R1 C2 D4 Q1 R12 R13 R14
2 8 4 5
Css R2 Ct
Brnout Ss
Vin
7
Out 6
U2 R8 R9 R16 U3 TL431 R11 C8 R10 R15 C11
CS U1 CT TSM007 Gnd
3
Comp 1
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Package Mechanical Data 5 Package Mechanical Data
TSM007
Plastic DIP-8 MECHANICAL DATA
mm. DIM. MIN. A a1 B B1 b b1 D E e e3 e4 F I L Z 0.44 3.3 1.6 0.017 8.8 2.54 7.62 7.62 7.1 4.8 0.130 0.063 0.38 0.7 1.39 0.91 0.5 0.5 9.8 0.346 0.100 0.300 0.300 0.280 0.189 0.015 1.65 1.04 TYP 3.3 0.028 0.055 0.036 0.020 0.020 0.386 0.065 0.041 MAX. MIN. TYP. 0.130 MAX. inch
P001F
11/12
TSM007
Package Mechanical Data
SO-8 MECHANICAL DATA
DIM. A A1 A2 B C D E e H h L k ddd 0.1 5.80 0.25 0.40 mm. MIN. 1.35 0.10 1.10 0.33 0.19 4.80 3.80 1.27 6.20 0.50 1.27 8 (max.) 0.04 0.228 0.010 0.016 TYP MAX. 1.75 0.25 1.65 0.51 0.25 5.00 4.00 MIN. 0.053 0.04 0.043 0.013 0.007 0.189 0.150 0.050 0.244 0.020 0.050 inch TYP. MAX. 0.069 0.010 0.065 0.020 0.010 0.197 0.157
0016023/C
Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners (c) 2004 STMicroelectronics - All Rights Reserved
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