Philips FM242 Service Manual page 78

EN 78 9. FM242 AA
The RC commands are routed to the Receiver box via the
VGA1 connector pin 9 (RC_VGA1), but this loop through
connection is controlled by RC_CNTL. Below is the truth table.
Table 9-3 RC Commands overview
F21REE-box FM242Monitor RC
In Standby In Standby
In Standby On
On In Standby
On On
Note: All RC commands are direct available on a separate RC-
out cinch connector (RC_OUT) on the VGA connector panel.
H- and/or V-sync Detection
When both H and or V sync are present on VGA1, there is a
pulse (low) on SYNC_ACT. When only H is present,
SYNC_ACT is continuously low. The SW disables the
interrupt, once an interrupt is received.
UART Communication Detection
When there is UART communication on VGA1, the UART
detection circuitry generates on every falling edge a pulse on
UART_ACT. This is a negative going pulse with a width of ±
470 s. The first pulse will trigger the main software to check for
the FTV System Protocol (FSP). The SW disables the interrupt,
once an interrupt is received.
RS232 Communication Detection
When an RS232 connection is made, and communication is
started (pulses on RS232_RXD), RS232_ACT becomes 'high'.
Via a transistor, RS232_ACT will make SERVICE_IN low.
When the Monitor is operating (+5 V available), this signal is
made low (in fact it is disabled).
Service Mode Detection
It is possible to enter four different Service Modes (provided the
OTC is still supplied by the +3V3_STBY).
Via the SERVICE_IN signal, which is an ADC input of the OTC,
a voltage drop is detected from +3.3 V to V
V is a DC voltage, which represents the mode to be entered:
X
Table 9-4 Service Mode levels
Service mode Limits Vx [V] Vx [V] Remarks
SDM 3.0 > Vx > 2.4 ± 2.6
SAM 2.4 > Vx > 1.8 ± 2.0
COMPAIR 1.8 > Vx > 1.2 ± 1.4
RS232 active Vx < 0.8
2
I C
2
There are four I C busses used in the monitor (see also I
overview in chapter 6):
2
• I C bus 1 is a (5 V) device bus, controlled by the OTC, and
connected to the following devices:
– PDP.
– EPLD.
– IO expander SCAVIO - PCF8574A.
– IO expander PSU - PCF8574A.
– ADC - PCF8591.
– Clock generator for PW - FS6377.
– Sound processor MSP3415G.
– Audio switch TEA6422 (Enhanced version only).
2
• I C bus 2 is used for communication with the PixelWorks
co-processor (PW). Although the OTC is the main
controller, it will act in this case as a 'slave', since the PW
can only act as a 'master'. Before any I
Circuit Descriptions and List of Abbreviations
RC_CNTL
commands
Send to E-box Low
Blocked High
Send to E-box Low
Send to E-box Low
.
X
0382-2 to GND
0382-4 to GND
0382-6 to GND
>0.8 Plug in RS232, start
program
2
C
2
C commands are
exchanged, the PW gets an interrupt (PW_START) to
indicate that the OTC wants to talk to the PW.
2
• I C bus 3 is a (5 V) device bus, controlled by the PW, and
connected to the following devices:
– Video Decoder SAA7118 (Enhanced version only).
– De-interlacer SDA9400 (Enhanced version only).
– ADC/TMDS receiver AD9887.
– 3D Comb filter MN8783LSI (optional).
2
• I C bus 4 is a (5 V) device bus, only connected to the NVM
(to avoid data corruption).
Notes:
• The PDP and EPLD are in fact 3.3 V bus devices, but they
need to be connected to bus 1, since the OTC is the first
controller to be fully operating at start-up. For this reason,
2
an I C level shifter (items 7675/76 on diagram SC12) is
included, which converts the 5 V signals into 3V3 and visa
versa.
• One of the first commands is to set the clock generator
(item7570), else the PW can not start-up.
RS232/UART
(FLEX VGA)
VGA2
4 VGA2_TXD
11 VGA2_RXD
12
15
74HCT
15 pin Sub-D
125-C/D
ST232
RS232
3 RXD
TXD
2
9 pin Sub-D
74HCT
125-A/B
VGA1
4 VGA1_TXD
11
12
15 VGA1_RXD
15 pin Sub-D
S1
Figure 9-6 RS232/UART
Introduction
The FM242 monitor is equipped with an RS232 interface. Via a
9 pin Sub-D connector, it is possible to connect a PC for special
modes like:
• SW download.
• Factory purposes.
• Service.
• Professional use.
A second option is the connection of a so-called ICONN-box for
Institutional TV (Hotel TV).
For communication with the Receiver Box, UART is used,
because this protocol can handle longer cable distances than
2
I C. The (Receiver box) UART is interfaced via a 15 pin Sub-D
connector (VGA connector). Via this UART connection, the
F21R Receiver box and the FM242 Monitor can communicate
(via FSP). By doing so, the monitor will know that there is an
Receiver box connected and thus it is operating as a TV
configuration.
RS232/UART Control
The OTC (SELECT_1 to 4) controls the RS232/UART
switches. When the monitor is in Receiver box mode, there is
no RS232 communication possible. The monitor is default set
in Receiver box mode (switch to n.c. position) and the UART
from/to VGA1 is enabled, to allow communication with
Receiver box.
If no Receiver box is detected, the UART is disabled to ensure
that there will be no communication towards the OTC, and the
switch is set to OTC. Below the truth table of the switches is
shown, which determine the TXD/RXD path.
RXD-PW
PW
TXD-PW
S4
74HC4052
n.c.
n.c.
RXD-OTC
n.c.
OTC
n.c.
TXD-OTC
S3 S2
S1..S4 = control signals
S1 = SELECT_1
S2 = SELECT_2
S3 = SELECT_3
S4 = SELECT_4
CL 26532038_013.eps
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