Bose Lifestyle 28 Troubleshooting Manual - Page 6
Browse online or download pdf Troubleshooting Manual for Home Theater System Bose Lifestyle 28. Bose Lifestyle 28 32 pages. Dvd home entertainment systems
Also for Bose Lifestyle 28: Installation Manual (32 pages), Operating Manual (44 pages), Owner's Manual (22 pages), Operating Manual (46 pages), Operating Manual (44 pages), Operating Manual (34 pages)
- 1. Table of Contents
- 2. Safety Information
- 3. Electrostatic Discharge Senstitive (ESDS) Device Handling
- 4. Specifications
- 5. Theory of Operation
- 6. Theory of Operation
- 7. Setting up a Computer to Issue TAP Commands
- 8. Placing the Bass Module into TAP Mode
- 9. Equalizer Programming Method
- 10. Scope Photos
- 11. Scope Photos
- 12. Integrated Circuit Diagrams
- 13. Troubleshooting Guide
PS18/28/35 Troubleshooting Guide
Theory of Operation
The IC has two enable pins, one of which (pin-8) disables the operation while the other (pin-9)
enables the operation. A voltage pulse higher than 0.6V at pin-8 shuts down the IC and a voltage
pulse higher than 1.2V at pin-9 wakes up the IC. An opamp, an under voltage lockout circuit, and a
soft start circuit are also built into the IC.
Figure 3 is a circuit diagram that shows how the IC is used in the tracking power supply. With a
12V voltage established at pin-12 (Vs), the VCO starts to oscillate, sweeping oscillation frequency
from its start frequency (350 kHz) downward. A gate-driving signal for a low-side MOSFET is
generated at pin-11 with respect to pin-10, and another gate driving signal for a high-side
MOSFET is obtained at pin-15 with respect to pin-14.
Figure 3. Resonant controller IC used in tracking power supply
Figure 4 shows the oscillograms of the two gate driving signals, when the IC alone is powered on
by a 12V DC supply. A dead time of about 280ns, during which both signals are at low level, exists
between the two gate signals. Such a dead time avoids shoot-through of the two power MOSFETs.
It also allows zero-voltage switching as will be explained later.
The frequency of the two signals is controlled by a voltage at pin-7, which is connected to the
output of an opto-coupler. The frequency is about 200 kHz with 0V at pin-7 and 100 kHz with 2V at
pin-7.
Figure 4. Scope photo of two gate driving signals
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