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Table 9-1 I/O Overview Power Supply
Name
+3V3
+3V3_STBY_SW
+5V
+5V_STBY_SW
+8V6
+9V_STBY
+9V_STBY_SW
DC_PROT
FAN_SP_1
FAN_SP_2
FAN_SUPPLY_1
FAN_SUPPLY_2
Iak
Mains
POWER_OK
SCL_1
SDA_1
STANDBY
Va
Vak
Vcc
Vcego
Vra
Vrs
Vs
Vsago
Vsk
VSND_POS
VSND_NEG
The Power Supply Unit (PSU) is designed to provide regulated
output voltages for the plasma display panel (PDP) and the
built-in electronic panels (such as e.g. the SCAVIO and Audio
Amplifier panels).
It will house the Pre-conditioner, DC/DC converters and the
Standby circuitry. In addition, this panel will house the
protection and the (optional) fan drive circuitry.
The Mains inlet is mounted alongside the SCAVIO panel. It
consists of the necessary high and low frequency mains filters.
The mains AC voltage is applied to the input filter and then fed
to the standby supply. This supply is always operational and
delivers the +9V
The task of the main supply is to deliver the supply voltages for
the several electrical circuits in the monitor.
It is switched via two single-pole relays, which are powered
from the +9V
STBY
signal.
The reason to choose for a separate standby supply instead of
a single flyback supply is the requirement to have a low standby
power consumption.
The PSU consists of the following parts (which are described
separately):
•
Mains inlet and filter,
•
Standby supply,
•
Fan control (optional),
•
Pre-conditioner,
•
LLC supply,
•
Aux. supply,
•
Protections.
To understand the descriptions below, see also mentioned
diagrams in Chapter 7.
Circuit Descriptions and List of Abbreviations
I/O Value
Out +3.3 Vdc
Out +3.3 Vdc
Out +5 Vdc
Out +5 Vdc
Out +8.6 Vdc
Out +9 Vdc
Out +9 Vdc
In
H/L
In
H/L (TTL level)
In
H/L (TTL level)
Out 5 to 13 Vdc
Out 5 to 13 Vdc
Out
In
110/240 Vac, 50/60 Hz Mains voltage.
Out H/L (TTL level)
In
H/L
In/
H/L
Out
In
H/L (TTL level)
Out +30 to +70 Vdc
Out
Out +5 Vdc
In
H/L (H= +2 Vdc)
In
In
Out +70 to +90 Vdc
In
H/L (H= +2 Vdc)
Out
Out +14.5 Vdc
Out -14.5 Vdc
voltage.
STBY
voltage and controlled via the SUPPLY_ON
Digitized in Heiloo, Holland
Description
To supply small signal digital circuitry.
To supply small signal digital circuitry, needing power in standby
To supply small signal digital circuitry.
To supply small signal digital circuitry, needing power in standby
To supply the small signal analogue circuitry.
Signal to functional ON/OFF switch.
Signal from functional ON/OFF switch.
Signal from audio amplifier to switch OFF the power supply in case of a safety problem.
PWM signal from uP to control optional fans (group 1).
PWM signal from uP to control optional fans (group 2).
Supply voltage for optional fans (group 1).
Supply voltage for optional fans (group 2).
Signal to measure 'Ia' in PDP (Iak= 1 x Ia).
Signal to an interrupt pin of the uP, which indicates that the power supply is in regulation.
If an error occurs, signal goes from H to L.
I2C clock line from uP.
Bi-directional I2C data line from/to uP.
Signal to switch the PSU to standby mode.
To supply the addressing circuitry in the PDP.
Signal to measure Va in PDP (Vsk= 0.036 x Va).
To supply small signal digital circuitry in the PDP.
Signal to switch the low voltage supplies ON/OFF.
Signal to control Va (Va= 30 + (20 x Vra)).
Signal to control Vs (Vs= 70 + (10 x Vrs)).
To supply the sustain circuitry in the PDP.
Signal to switch the high voltage supplies (Vs and Va) ON/OFF.
Signal to measure Vs in PDP (Vsk= 0.029 x Vs).
To supply the audio amplifier panel.
To supply the audio amplifier panel.
9.2.2
Mains Inlet and Filter (Diagram P2)
Introduction
The mains filter provides common-mode and differential-mode
filtering, to fulfil legal and self-imposed limits. Additional
provisions are mains spikes and lightning protection.
Operation
The mains voltage is provided via mains inlet 0308, after which
it is fused by a T6.3A fuse (item 1400).
The next part, the mains filter, is optional. It consists of an LC
common mode filter section. This filter consists of two
capacitors (items 2402 and 2403) from both phase and neutral
to ground (to reduce the leakage current) and an inductor
(5401). Interferences on one of the phases are shorted to
ground via these capacitors.
Inductor 5401 also provides a differential-mode filtering with
capacitor 2400. Resistor 3401 discharges this capacitor after
the mains is disconnected.
A second common mode filter is made around coil 5402 and
capacitor 2401.
Resistor 3400 is a high energy VDR. The advantage of this
VDR is that it can handle 400 V
voltage peaks (e.g. lightning surge) on one of the phases, the
resistance of VDR 3400 will be very low, causing fuse 1400 to
interrupt.
At a lightning surge on both phases with respect to chassis
ground, mains filter 5401 will form a high resistance, through
which the voltage will rise very sharply.
To prevent flashovers, a spark-gap/ resistor combination (items
1402 and 3404) is implemented.
The high-ohmic resistors 3402 and 3403 are connected
between neutral and chassis ground. They are required by
safety regulations.
31/8/2014
FM24
9.
EN 91
without risk of fire. At high
AC
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