MAX9155 Ver la hoja de datos (PDF) - Maxim Integrated
Número de pieza
componentes Descripción
Fabricante
MAX9155 Datasheet PDF : 9 Pages
| |||
Low-Jitter, Low-Noise LVDS
Repeater in an SC70 Package
Applications Information
Supply Bypassing
Bypass VCC with a high-frequency surface-mount
ceramic 0.01µF capacitor as close to the device as
possible.
Differential Traces
Input and output trace characteristics affect the perfor-
mance of the MAX9155. Use controlled-impedance dif-
ferential traces. Ensure that noise couples as common
mode by running the traces within a differential pair
close together.
Maintain the distance within a differential pair to avoid
discontinuities in differential impedance. Avoid 90°
turns and minimize the number of vias to further prevent
impedance discontinuities.
Cables and Connectors
The LVDS standards define signal levels for intercon-
nect with a differential characteristic impedance and
termination of 100Ω. Interconnects with a characteristic
impedance and termination of 90Ω to 132Ω impedance
are allowed, but produce different signal levels (see
Termination).
Use cables and connectors that have matched differen-
tial impedance to minimize impedance discontinuities.
Avoid the use of unbalanced cables, such as ribbon or
coaxial cable. Balanced cables, such as twisted pair,
offer superior signal quality and tend to generate less
EMI due to canceling effects. Balanced cables tend to
pick up noise as common mode, which is rejected by
the LVDS receiver.
Termination
For point-to-point links, the termination resistor should
be located at the LVDS receiver input and match the
differential characteristic impedance of the transmis-
sion line.
For a multidrop bus driven at one end, terminate at the
other end of the bus with a resistor that matches the
loaded differential characteristic impedance of the bus.
For a multidrop bus driven from a point other than the
end, terminate each end of the bus with a resistor that
matches the loaded differential characteristic imped-
ance of the bus. When terminating at both ends, or for a
large number of drops, a bus LVDS (BLVDS) driver is
needed to drive the bus to LVDS signal levels. The
MAX9155 is not intended to drive double-terminated
multidrop buses to LVDS levels.
The differential output voltage level depends upon the
differential characteristic impedance of the interconnect
and the value of the termination resistance. The
MAX9155 is guaranteed to produce LVDS output levels
into 100Ω. With the typical 3.6mA output current, the
MAX9155 produces an output voltage of 360mV when
driving a 100Ω transmission line terminated with a
100Ω termination resistor (3.6mA x 100Ω = 360mV). For
typical output levels with different loads, see the
Differential Output Voltage vs. Load Resistor typical
operating curve.
Chip Information
TRANSISTOR COUNT: 401
PROCESS: CMOS
6 _______________________________________________________________________________________
Share Link: 