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Revision E

MAC



5500 resting ECG analysis system

2-21



2020299-020

Equipment Overview: Theory of Operation

Color Lookup Table (CLUT)

Generally the dynamic plane is filled with waveforms and perhaps a few characters
of text. The static plane often contains text messages, icons, buttons and graphics.
The greater variety of object types displayed in the static plane demands a wider
range of colors. For this reason, each video data byte is split asymmetrically into
five bits of static pixel data and three bits of dynamic pixel data. This has come to be
known as 5.3 format.

The 5.3 format provides a palette of 2^3=8 colors for dynamic objects and (2^5)-
1=31 colors for static objects (1 of the colors is transparent, leaving 31 real colors).
In practice, to “freeze” dynamic objects in the static plane requires that the 8
dynamic colors be replicated in the static color map, leaving only 31-8=23 new
colors available for static objects. The FPGA implements a writable color lookup
table (CLUT) to map the pixel values to sensible colors on the LCD. The CLUT
provides 32- to 24-bit entries, providing access to the complete color space offered
by the LCD panel. The color mapped LCD data is also fed to three external discrete
6-bit DAC’s to create analog video for an external CRT.

Blank/Sync

External VGA monitors are supported with two styles of video sync signal as well as
retrace blanking.

Video Sync –

The horizontal and vertical sync pulses from the LCD controller are

combined to produce a composite sync signal that is added to the video signal. The
video sync signal may be disabled under software control to accommodate monitors
that do not accept sync on green. The sync signal is applied to all three video guns to
eliminate color shifting in systems that do not perform blank level video clamping.

TTL Sync –

For monitors that do not accept sync on green, TTL logic level

horizontal and vertical sync signals are provided. These may be enabled/disabled to
implement a rudimentary “sleep” operation on Energy Star compliant monitors.

Blank –

Unlike LC displays, CRT’s emit light from more than just their active

display surface. The electron beam is visible even during retrace and precautions
must be taken to ensure that the guns are off in non-active areas of the display. To
ensure black borders on external monitors (and reset the DC restore clamps in the
video output buffers). The CLUT video passes through a gating register before
leaving the FPGA. This allows the LCD DE (display enable) signal to force the guns
to a blanking level during inactive portions of the display frame.

Interrupt Controller

ATMEL AT91RM9200 supports one external fast interrupt input(FIQ) and seven
external interrupt inputs. In addition all the GPIO lines can act as an interrupt inputs.
All the dedicated external interrupt inputs are multiplexed with GPIO ports. The
FPGA interrupt logic combines the interrupts form System Timer, Acquisition
interface, BBUS interface, Thermal printhead interface and LCD controller to FIQ
and Slow Interrupt. The FIQ and Slow Interrupt from FPGA Interrupt controller are
fed to processor FIQ and IRQ0 respectively. For more detail on the operation of the
interrupt mask/status registers, see the source file “hardware.h”.