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CM2030 Datasheet, PDF (5/14 Pages) California Micro Devices Corp – HDMI Transmitter Port Protection and Interface Device
DYNAMIC PULLUPS (CONT’D)
CM2030
Figure 2. Dynamic DDC Pullups (Discrete - Top, CM2030 - Bottom; 3.3V ASIC - Left, 5V Cable - Right.)
Figure 2 demonstrates the “worst case” operation of
the dynamic CM2030 DDC level shifting circuitry (bot­
tom) against a discrete NFET common-gate level
shifter circuit with a typical 1.5kΩ pullup at the source
(top.) Both are shown driving an off-spec, but unfortu­
nately readily available 31m HDMI cable which
exceeds the 700pF HDMI specification. Some widely
available HDMI cables have been measured at over
4nF.
When the standard I/OD cell releases the NFET dis­
crete shifter, the risetime is limited by the pullup and
the parasitics of the cable, source and sink. For long
cables, this can extend the risetime and reduce the
margin for reading a valid “high” level on the data line.
In this case, an HDMI source may not be able to read
uncorrupted data and will not be able to initiate a link.
improved I2C low-level shifting on the DDC_CLK_IN
and DDC_DAT_IN lines for enhanced compatibility.
Typical discrete NFET level shifters can advertise
specifications for low RDS[on], but usually state rela­
tively high V[GS] test parameters, requiring a 'switch'
signal (gate voltage) as high as 10V or more. At a sink
current of 4mA for the ASIC on DDC_XX_IN, the
CM2030 guarantees no more than 140mV increase to
DDC_XX_OUT, even with a switching control of 2.5V
on LV_SUPPLY.
When I2C devices are driving the external cable, an
internal pulldown on DDC_XX_IN guarantees that the
VOL seen by the ASIC on DDC_XX_IN is equal to or
lower than DDC_XX_OUT.
With the CM2030’s dynamic pullups, when the ASIC
driver releases its DDC line and the “OUT” line reaches
at least 0.3*VDD (of 5V_SUPPLY), then the “OUT”
active pullups are enabled and the CM2030 takes over
driving the cable until the “OUT” voltage approaches
the 5V_SUPPLY rail.
Multiport DDC Multiplexing
By switching LV_SUPPLY, the DDC/HPD blocks can be
independently disabled by engaging their inherent
“backdrive” protection. This allows N:1 multiplexing of
the low-speed HDMI signals without any additional
FET switches.
The internal pass element and the dynamic pullups
also work together to damp reflections on the longer
cables and keep them from glitching the local ASIC.
I2C LOW LEVEL SHIFTING
In addition to the Dynamic Pullups described in the
previous section, the CM2030 also incorporates
Consumer Electronics Control (CEC)
The Consumer Electronics Control (CEC) line is a high
level command and control protocol, based on a single
wire multidrop open drain communication bus running
at approximately 1kHz (See Figure 3). While the HDMI
link provides only a single point-to-point connection, up
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Issue A – 11/16/07