MAX13485EEVKIT+ Maxim Integrated Products, MAX13485EEVKIT+ Datasheet - Page 12
MAX13485EEVKIT+
Manufacturer Part Number
MAX13485EEVKIT+
Description
KIT FOR MAX1348 RS485/RS422 TXRX
Manufacturer
Maxim Integrated Products
Specifications of MAX13485EEVKIT+
Main Purpose
Interface, RS-422/RS-485 Transceiver
Embedded
No
Utilized Ic / Part
MAX13485E
Primary Attributes
1 Driver, 1 Receiver
Secondary Attributes
Half-Duplex, ESD-Protected
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX13485E/MAX13486E half-duplex, high-speed
transceivers for RS-485/RS-422 communication contain
one driver and one receiver. These devices feature fail-
safe circuitry that guarantees a logic-high receiver out-
put when receiver inputs are open or shorted, or when
they are connected to a terminated transmission line
with all drivers disabled (see the Fail-Safe section). The
MAX13485E/MAX13486E also feature a hot-swap capa-
bility allowing line insertion without erroneous data
transfer (see the Hot-Swap Capability section). The
MAX13485E features reduced slew-rate drivers that
minimize EMI and reduce reflections caused by
improperly terminated cables, allowing error-free trans-
mission up to 500kbps. The MAX13486E driver slew
rate is not limited, making transmit speeds up to
16Mbps possible.
The MAX13485E/MAX13486E guarantee a logic-high
receiver output when the receiver inputs are shorted or
open, or when they are connected to a terminated
transmission line with all drivers disabled. This is done by
setting the receiver input threshold between -50mV and
-200mV. If the differential receiver input voltage (A - B) is
greater than or equal to -50mV, RO is logic-high. If (A - B)
is less than or equal to -200mV, RO is logic-low. In the
case of a terminated bus with all transmitters disabled,
the receiver’s differential input voltage is pulled to 0V by
the termination. With the receiver thresholds of the
MAX13485E/MAX13486E, this results is a logic-high with
a 50mV minimum noise margin. Unlike previous fail-safe
devices, the -50mV to -200mV threshold complies with
the ±200mV EIA/TIA-485 standard.
When circuit boards are inserted into a hot or powered
backplane, differential disturbances to the data bus
can lead to data errors. Upon initial circuit-board inser-
tion, the data communication processor undergoes its
own power-up sequence. During this period, the
processor’s logic-output drivers are high impedance
and are unable to drive the DE and RE inputs of these
devices to a defined logic level. Leakage currents up to
±10µA from the high impedance state of the proces-
sor’s logic drivers could cause standard CMOS enable
inputs of a transceiver to drift to an incorrect logic level.
Additionally, parasitic circuit-board capacitance could
cause coupling of V
Without the hot-swap capability, these factors could
improperly enable the transceiver’s driver or receiver.
Half-Duplex RS-485/RS-422 Transceivers in µDFN
12
______________________________________________________________________________________
CC
Detailed Description
or GND to the enable inputs.
Hot-Swap Capability
Hot-Swap Inputs
Fail-Safe
When V
low and RE high. After the initial power-up sequence,
the pulldown circuit becomes transparent, resetting the
hot-swap tolerable input.
The enable inputs feature hot-swap capability. At the
input there are two nMOS devices, M1 and M2 (Figure
9). When V
turns on M2 and sets the SR latch, which also turns on
M1. Transistors M2, a 1.5mA current sink, and M1, a
500µA current sink, pull DE to GND through a 5kΩ
resistor. M2 is designed to pull DE to the disabled state
against an external parasitic capacitance up to 100pF
that can drive DE high. After 7µs, the timer deactivates
M2 while M1 remains on, holding DE low against tri-
state leakages that can drive DE high. M1 remains on
until an external source overcomes the required input
current. At this time, the SR latch resets and M1 turns
off. When M1 turns off, DE reverts to a standard high-
impedance CMOS input. Whenever V
1V, the hot-swap input is reset.
For RE there is a complementary circuit employing two
pMOS devices pulling RE to V
Figure 9. Simplified Structure of the Driver Enable Pin (DE)
DE
TIMER
V
TIMER
CC
CC
5kΩ
M1
rises, an internal pulldown circuit holds DE
CC
ramps from zero, an internal 7µs timer
100μA
500μA
10μs
M2
Hot-Swap Input Circuitry
CC
.
SR LATCH
CC
drops below
DE
(HOT SWAP)
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