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PDF SPH4692 Data sheet ( Hoja de datos )
| Número de pieza | SPH4692 | |
| Descripción | Siemens Power Hybrid for SMPS | |
| Fabricantes | Siemens Semiconductor Group | |
| Logotipo |  |
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Siemens Power Hybrid for SMPS
Preliminary Data
SPH 4692
Bipolar IC
Features
q Fold-back characteristics provides overload protection for
external components
q Burst operation under secondary short-circuit condition
implemented
q Protection against open or a short of the control loop
q Switch-off if line voltage is too low (undervoltage switch-off)
q Line voltage depending compensation of fold-back point
q Soft-start for quiet start-up without noise generated by the
transformer
q Chip-over temperature protection implemented (thermal
shutdown)
q On-chip ringing suppression circuit against parasitic
oscillations of the transformer
Power MOSFET
q VDS = 600 V
q R DS ON = 3.0 Ω
q Repetitive Avalanche
P-DIP-18-4
Type
SPH 4692
Ordering Code
Q67000–A5069
Package
P-DIP-18-4
The Siemens Power Hybrid SPH 4692 contains the SMPS IC TDA 4605-3 as well as the SIEMENS
POWER MOSFET in a P-DIP-18 package.
The IC TDA 4605-3 controls the MOS-power transistor and performs all necessary control and
protection functions in free running flyback converters. Because of the fact that a wide load range
is achieved, this IC is applicable for consumer as well as industrial power supplies.
Semiconductor Group
1
02.95
1 page  
SPH 4692
Circuit Description
Application Circuit
The application circuit shows a flyback converter for video recorders with an output power rating of
25 W. The circuit is designed as a wide-range power supply for AC-line voltage of 180 to 264 V. The
AC-input voltage is rectified by the bridge rectifier GR1 and smoothed by C1. The NTC limits the
rush-in current.
In the period before the switch-on threshold is reached the IC is supplied via resistor R1; during the
start-up phase it uses the energy stored in C2, under steady state conditions the IC receives its
supply voltage from transformer winding n1 via diode D1. The switching transistor T1 is a BUZ 92.
The parallel connected capacitor C3 and the inductance of primary winding n2 determine the system
resonance frequency. The R2-C4-D2 circuitry limits overshoot peaks, and R13 protects the gate of
T1 against static charges.
During the conductive phase of the power transistor T1 the current rise in the primary winding
depends on the winding inductance and the mains voltage. The network consisting of R4-C5 is used
to create a model of the sawtooth shaped rise of the collector current. The resulting control voltage
is fed into pin 2 of the IC. The RC-time constant given by R4-C5 must be designed that way that
driving the transistor core into saturation is avoided.
The ratio of the voltage divider R10/R11 is fixing a voltage level threshold. Below this threshold the
switching power supply shall stop operation because of the low mains voltage. The control voltage
present at pin 3 also determines the correction current for the fold-back point. This current added
to the current flowing through R4 and represents an additional charge to C5 in order to reduce the
turn-on phase of T1. This is done to stabilize the fold-back point even under higher main voltages.
Regulation of the switched-mode power supply is via pin 1.The control voltage of winding n1 during
the off period of T1 is rectified by D3, smoothed by C6 and stepped down at an adjustable ratio by
R5, R6 and R7. The R8-C7 network suppresses parasitic overshoots (transformer oscillation). The
peak voltage at pin 2, and thus the primary peak current, is adjusted by the IC so that the voltage
applied across the control winding, and hence the output voltages, are at the desired level.
When the transformer has supplied its energy to the load, the control voltage passes through zero.
The IC detects the zero crossing via series resistors R9 connected to pin 18. But zero crossings are
also produced by transformer oscillation after T1 has turned off if outputs is short-circuited.
Therefore the IC ignores zero crossings occurring within a specified period of time after T1 turn-off.
The capacitor C8 connected to pin 17 causes the power supply to be started with shorter pulses to
keep the operating frequency outside the audible range during start-up.
On the secondary side, three output voltages are produced across winding n3 to n5 rectified by D4
to D6 and smoothed by C9 to C11. Resistor R12 is used as a bleeder resistor. Fusable resistors R15
and R16 protect the rectifiers against short-circuits in the output circuits, which are designed to
supply only small loads.
Semiconductor Group
5
5 Page 
SPH 4692
Characteristics
TA = 25 ˚C; VS = 10 V
Parameter
Symbol
Limit Values
Unit Test Condition
min. typ. max.
Test
Circuit
Control Circuit
Start-Up Hysteresis
Start-up current
Switch-on voltage
Switch-off voltage
Switch-on current
Switch-off current
I 16 E0
0.6 0.8 mA V16 = V16 E
V16 E 11 12 13 V
V16 A 4.5 5
5.5 V
I 16 E1
11
mA V16 = V16 E
I 16 A1
10
mA V16 = V16 A
1
1
1
1
1
Voltage Clamp (V16 = 10 V, IC switched-off)
At pin 2 (V16 < V16 E)
V2 max 5.6 6.6
At pin 3 (V16 < V16 E)
V3 max 5.6 6.6
8
8
V I 2 = 1 mA
V I 3 = 1 mA
1
1
Control Range
Control input voltage
Voltage gain of the
control circuit in the
control range
V1 R
–VR
390 400 410 mV
2
43 dB VR = d (V2S –V2B)/ 2
dV1
f = 1 kHz
Primary Current Simulation Voltage
Basic value
V2 B 0.97 1.00 1.03 V
Overload Range and Short-Circuit Operation
Peak value in the range V2 B
of secondary overload
2.9 3.0 3.1 V
Peak value in the range V2 K
of secondary short
circuit operation
2.2 2.4 2.9 V
2
V1 = V1R – 10 mV 2
V1 = 0
2
Fold-Back Point Correction
Fold-back point
correction current
–I2
300 500 650 µA V3 = 3.7 V
1
Semiconductor Group
11
11 Page | ||
| Páginas | Total 22 Páginas | |
| PDF Descargar | [ Datasheet SPH4692.PDF ] | |
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