MAX1480BEPI+ Maxim Integrated Products, MAX1480BEPI+ Datasheet - Page 18
MAX1480BEPI+
Manufacturer Part Number
MAX1480BEPI+
Description
IC RS485/RS422 DATA INTRFC 28DIP
Manufacturer
Maxim Integrated Products
Type
Transceiverr
Datasheet
1.MAX1490BCPG.pdf
(21 pages)
Specifications of MAX1480BEPI+
Number Of Drivers/receivers
1/1
Protocol
RS422, RS485
Voltage - Supply
4.5 V ~ 5.5 V
Mounting Type
Through Hole
Package / Case
28-DIP (0.600", 15.24mm)
Package
28PDIP
Data Transmission Topology
Multidrop|Multipoint
Data Rate
0.25(Min) Mbps
Function
Line Transceiver
Number Of Transmitters
1
Transmitter Signal Type
Differential
Transmitter Communication Type
RS-422|RS-485
Driving Mode
3-State
Typical Single Supply Voltage
5 V
Number Of Channels Per Chip
1
Supply Voltage (max)
5.5 V
Supply Voltage (min)
4.5 V
Maximum Operating Temperature
+ 85 C
Mounting Style
Through Hole
Interface
RS-485, RS-422
Maximum Power Dissipation
727 mW
Minimum Operating Temperature
- 40 C
Supply Current
95 mA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
There are two mechanisms to prevent excessive output
current and power dissipation caused by faults or by
bus contention. A foldback current limit on the output
stage provides immediate protection against short cir-
cuits over the entire common-mode range (see the
Typical Operating Characteristics ). In addition, a ther-
mal shutdown circuit forces the driver outputs into a
high-impedance state if the die temperature rises
excessively.
Typical propagation delays are shown in the Typical
Operating Characteristics using the test circuit of
Figure 5. Propagation delay skew is simply the differ-
ence between the low-to-high and high-to-low propaga-
tion delay. Small driver/receiver skew times help
reduce EMI and reflections by maintaining balanced
differential signals.
The receiver skew time,
100ns for the MAX1480A/MAX1490A and under 1µs for
the MAX1480B/MAX1480C/MAX1490B.
The driver skew time is typically 25ns for the
MAX1480A/MAX1490A and 100ns for the MAX1480B/
MAX1480C/MAX1490B.
Complete, Isolated RS-485/RS-422
Data Interface
Figure 14. Typical Full-Duplex RS-485/RS-422 Network
18
RO
DI
OR EQUIVALENT
______________________________________________________________________________________
V
74HC86
5V
IN
DRIVER INPUT
C1
22μF
RECEIVER OUTPUT
DI
´
0.1μF
C2
R1
R2
Driver Output Protection
Propagation Delay Skew
I
t
PLH
LOGIC GROUND
GND1
GND2
V
V
V
V
CC1
CC2
CC3
CC4
SD
RO
D1
D2
FS
DI
- t
10
11
12
1
2
3
4
5
6
7
8
9
PHL
ISOLATION BARRIER
MAX1490A/B
I
, is typically under
24
23
22
21
20
19
18
17
16
15
14
13
ISO V
A
B
Z
ISO COM1
ISO DI DRV
ISO V
ISO RO LED
AC1 (MAKE NO CONNECTION)
AC2 (MAKE NO CONNECTION)
ISO RO DRV
Y
CC1
CC2
R3
ISOLATED COMMON
R4
___________Applications Information
DI and DE are intended to be driven through a
series current-limiting resistor. Directly grounding
these pins destroys the device.
The MAX1480A/MAX1480B/MAX1480C are designed
for bidirectional data communications on multipoint
bus-transmission lines. The MAX1490A/MAX1490B are
designed for full-duplex bidirectional communications
that are primarily point-to-point. Figures 13 and 14
show half-duplex and full-duplex typical network appli-
cation circuits, respectively. To minimize reflections,
terminate the line at both ends with its characteristic
impedance, and keep stub lengths off the main line as
short as possible. The slew-rate-limited MAX1480B/
MAX1480C/MAX1490B are more tolerant of imperfect
termination and stubs off the main line.
The MAX1480A/MAX1480B/MAX1480C/MAX1490A/
MAX1490B pinouts enable optimal PC board layout by
minimizing interconnect lengths and crossovers.
• For maximum isolation, the “isolation barrier” should
not be breached except by the MAX1480A/
MAX1480B/MAX1480C/MAX1490A/MAX1490B.
R5, 100Ω
R6, 100Ω
SH2
SH1
A
Y
B
Z
NOTE: RESISTORS R5 AND R6 PROTECT
THE MAX1490A/B FROM TRANSIENT
CURRENTS BETWEEN SHIELD AND
TRANSMISSION LINES.
120Ω
120Ω
SHIELD (OPTIONAL)
SHIELD (OPTIONAL)
Layout Considerations
120Ω
120Ω
Y
Z
B
A
D
R
DI
RO
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