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MAX13088EASA+中文资料

MAX13088EASA+中文资料
MAX13088EASA+中文资料

General Description

The MAX13080E–MAX13089E +5.0V, ±15kV ESD-protect-ed, RS-485/RS-422 transceivers feature one driver and one receiver. These devices include fail-safe circuitry,guaranteeing a logic-high receiver output when receiver inputs are open or shorted. The receiver outputs a logic-high if all transmitters on a terminated bus are disabled (high impedance). The MAX13080E–MAX13089E include a hot-swap capability to eliminate false transitions on the bus during power-up or hot insertion.

The MAX13080E/MAX13081E/MAX13082E feature reduced slew-rate drivers that minimize EMI and reduce reflections caused by improperly terminated cables, allowing error-free data transmission up to 250kbps. The MAX13083E/MAX13084E/MAX13085E also feature slew-rate-limited drivers but allow transmit speeds up to 500kbps. The MAX13086E/MAX13087E/MAX13088E driver slew rates are not limited, making transmit speeds up to 16Mbps possible. The MAX13089E slew rate is pin selectable for 250kbps,500kbps, and 16Mbps.

The MAX13082E/MAX13085E/MAX13088E are intended for half-duplex communications, and the MAX13080E/MAX13081E/MAX13083E/MAX13084E/MAX13086E/MAX13087E are intended for full-duplex communica-tions. The MAX13089E is selectable for half-duplex or full-duplex operation. It also features independently programmable receiver and transmitter output phase through separate pins.

The MAX13080E–MAX13089E transceivers draw 1.2mA of supply current when unloaded or when fully loaded with the drivers disabled. All devices have a 1/8-unit load receiver input impedance, allowing up to 256transceivers on the bus.

The MAX13080E/MAX13083E/MAX13086E/MAX13089E are available in 14-pin PDIP and 14-pin SO packages.The MAX13081E/MAX13082E/MAX13084E/MAX13085E/MAX13087E/MAX13088E are available in 8-pin PDIP and 8-pin SO packages. The devices operate over the com-mercial, extended, and automotive temperature ranges.

Applications

Utility Meters Lighting Systems Industrial Control Telecom Security Systems Instrumentation Profibus

Features

?+5.0V Operation

?Extended ESD Protection for RS-485/RS-422 I/O Pins

±15kV Human Body Model ?True Fail-Safe Receiver While Maintaining EIA/TIA-485 Compatibility ?Hot-Swap Input Structures on DE and RE ?Enhanced Slew-Rate Limiting Facilitates Error-Free Data Transmission

(MAX13080E–MAX13085E/MAX13089E)?Low-Current Shutdown Mode (Except MAX13081E/MAX13084E/MAX13087E)?Pin-Selectable Full-/Half-Duplex Operation (MAX13089E)?Phase Controls to Correct for Twisted-Pair Reversal (MAX13089E)?Allow Up to 256 Transceivers on the Bus ?Available in Industry-Standard 8-Pin SO Package

MAX13080E–MAX13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

________________________________________________________________Maxim Integrated Products 1

Ordering Information

19-3590; Rev 1; 4/05

For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at https://www.wendangku.net/doc/ef2912301.html,.

Selector Guide, Pin Configurations, and Typical Operating Circuits appear at end of data sheet.

Ordering Information continued at end of data sheet.

M A X 13080E –M A X 13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers 2_______________________________________________________________________________________

ABSOLUTE MAXIMUM RATINGS

DC ELECTRICAL CHARACTERISTICS

(V CC = +5.0V ±10%, T A = T MIN to T MAX , unless otherwise noted. Typical values are at V CC = +5.0V and T A = +25°C.) (Note 1)

Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.

(All Voltages Referenced to GND)

Supply Voltage (V CC ).............................................................+6V Control Input Voltage (RE , DE, SLR,

H/F , TXP, RXP)......................................................-0.3V to +6V Driver Input Voltage (DI)...........................................-0.3V to +6V Driver Output Voltage (Z, Y, A, B).............................-8V to +13V Receiver Input Voltage (A, B)....................................-8V to +13V Receiver Input Voltage

Full Duplex (A, B)..................................................-8V to +13V Receiver Output Voltage (RO)....................-0.3V to (V CC + 0.3V)Driver Output Current.....................................................±250mA

Continuous Power Dissipation (T A = +70°C)

8-Pin SO (derate 5.88mW/°C above +70°C).................471mW 8-Pin Plastic DIP (derate 9.09mW/°C above +70°C).....727mW 14-Pin SO (derate 8.33mW/°C above +70°C)...............667mW 14-Pin Plastic DIP (derate 10.0mW/°C above +70°C)...800mW Operating Temperature Ranges

MAX1308_EC_ _.................................................0°C to +75°C MAX1308_EE_ _..............................................-40°C to +85°C MAX1308_EA_ _............................................-40°C to +125°C Junction Temperature......................................................+150°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°C

MAX13080E–MAX13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

_______________________________________________________________________________________3

DC ELECTRICAL CHARACTERISTICS (continued)

(V CC = +5.0V ±10%, T A = T MIN to T MAX , unless otherwise noted. Typical values are at V CC = +5.0V and T A = +25°C.) (Note 1)

M A X 13080E –M A X 13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers 4_______________________________________________________________________________________

DRIVER SWITCHING CHARACTERISTICS

MAX13080E/MAX13081E/MAX13082E/MAX13089E WITH SRL = UNCONNECTED (250kbps)

(V CC = +5.0V ±10%, T A = T MIN to T MAX , unless otherwise noted. Typical values are at V CC = +5.0V and T A = +25°C.)

RECEIVER SWITCHING CHARACTERISTICS

MAX13080E/MAX13081E/MAX13082E/MAX13089E WITH SRL = UNCONNECTED (250kbps)

(V CC = +5.0V ±10%, T A = T MIN to T MAX , unless otherwise noted. Typical values are at V CC = +5.0V and T A = +25°C.)

MAX13080E–MAX13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

_______________________________________________________________________________________5

DRIVER SWITCHING CHARACTERISTICS

MAX13083E/MAX13084E/MAX13085E/MAX13089E WITH SRL = V CC (500kbps)

(V CC = +5.0V ±10%, T A = T MIN to T MAX , unless otherwise noted. Typical values are at V CC = +5.0V and T A = +25°C.)

RECEIVER SWITCHING CHARACTERISTICS

MAX13083E/MAX13084E/MAX13085E/MAX13089E WITH SRL = V CC (500kbps)

(V CC = +5.0V ±10%, T A = T MIN to T MAX , unless otherwise noted. Typical values are at V CC = +5.0V and T A = +25°C.)

M A X 13080E –M A X 13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers 6

_______________________________________________________________________________________

DRIVER SWITCHING CHARACTERISTICS

MAX13086E/MAX13087E/MAX13088E/MAX13089E WITH SRL = GND (16Mbps)

(V CC = +5.0V ±10%, T A = T MIN to T MAX , unless otherwise noted. Typical values are at V CC = +5.0V and T A = +25°C.)

RECEIVER SWITCHING CHARACTERISTICS

MAX13086E/MAX13087E/MAX13088E/MAX13089E WITH SRL = GND (16Mbps)

(V CC = +5.0V ±10%, T A = T MIN to T MAX , unless otherwise noted. Typical values are at V CC = +5.0V and T A = +25°C.)

Note 2:?V OD and ?V OC are the changes in V OD and V OC , respectively, when the DI input changes state.

Note 3:The short-circuit output current applies to peak current just prior to foldback current limiting. The short-circuit foldback output

current applies during current limiting to allow a recovery from bus contention.

MAX13080E–MAX13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

_______________________________________________________________________________________7

0.80

0.901.501.101.001.201.301.401.60-40-10520-253550958011065125

SUPPLY CURRENT vs. TEMPERATURE

TEMPERATURE (°C)

S U P P L Y C U R R E N T (m A )0

201040305060021345OUTPUT CURRENT

vs. RECEIVER OUTPUT-HIGH VOLTAGE

M A X 13080E -89E t o c 02

OUTPUT HIGH VOLTAGE (V)O U T P U T C U R R E N T (m A )

20104030605070021345

OUTPUT CURRENT

vs. RECEIVER OUTPUT-LOW VOLTAGE

M A X 13080E -89E t o c 03

OUTPUT LOW VOLTAGE (V)

O U T P U T C U R R E N T (m A )

4.0

4.44.24.84.6

5.25.05.4RECEIVER OUTPUT-HIGH VOLTAGE

vs. TEMPERATURE

TEMPERATURE (°C)

O U T P U T H I G H V O L T A G E (V )

-40-10520-253550958011065125

0.10.70.30.20.40.50.60.8RECEIVER OUTPUT-LOW VOLTAGE

vs. TEMPERATURE

TEMPERATURE (°C)

O U T P U T L O W V O L T A G E (V )

-40-10520-253550958011065125020406080100120140160

1

2

3

4

5

DRIVER DIFFERENTIAL OUTPUT CURRENT vs. DIFFERENTIAL OUTPUT VOLTAGE

DIFFERENTIAL OUTPUT VOLTAGE (V)

D I F F

E R E N T I A L O U T P U T C U R R E N T (m A )2.0

2.82.4

3.63.2

4.4

4.04.8DRIVER DIFFERENTIAL OUTPUT VOLTAGE vs. TEMPERATURE

D I F F

E R E N T I A L O U T P U T V O L T A G E (V )

-40-10

520-253550958011065125TEMPERATURE (°C)

4020

1008060120140180160200-7-5-4-6

-3-2-10

1

2

35

4

OUTPUT CURRENT vs. TRANSMITTER

OUTPUT-HIGH VOLTAGE

OUTPUT HIGH VOLTAGE (V)

O U T P U T C U R R E N T (m A )

60402080100

120140160180200

042681012

OUTPUT CURRENT vs. TRANSMITTER

OUTPUT-LOW VOLTAGE

OUTPUT-LOW VOLTAGE (V)

O U T P U T C U R R E N T (m A )

Typical Operating Characteristics

(V CC = +5.0V, T A = +25°C, unless otherwise noted.)

M A X 13080E –M A X 13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers 8_______________________________________________________________________________________

21543679810SHUTDOWN CURRENT vs. TEMPERATURE

M A X 13080E -89E t o c 10

S H U T D O W N C U R R E N T (μA )

-40-10

520-253550958011065125TEMPERATURE (°C)

600

800700

1000900

1100

1200DRIVER PROPAGATION DELAY vs. TEMPERATURE (250kbps)

D R I V

E R P R O P A G A T I O N D E L A Y (n s )-40-10

520-253550958011065125TEMPERATURE (°C)

300

400350

500450550600DRIVER PROPAGATION DELAY vs. TEMPERATURE (500kbps)

D R I V

E R P R O P A G A T I O N D E L A Y (n s )

-40-10520-253550958011065125

TEMPERATURE (°C)

10703020405060

80DRIVER PROPAGATION DELAY vs. TEMPERATURE (16Mbps)

D R I V

E R P R O P A G A T I O N D E L A Y (n s )

-40-10

520-253550958011065125TEMPERATURE (°C)

40201008060120140160180

RECEIVER PROPAGATION DELAY

vs. TEMPERATURE (250kpbs AND 500kbps)

R E C E I V E R P R O P A G A T I O N D E L A Y (n s )

-40-10

520-253550958011065125TEMPERATURE (°C)

40201008060120140160180RECEIVER PROPAGATION DELAY

vs. TEMPERATURE (16Mbps)

R E

C E I V E R P R O P A G A

T I O N D E L A Y (n s )

-40-10520-253550958011065125

TEMPERATURE (°C)

2μs/div DRIVER PROPAGATION DELAY (250kbps)

DI 2V/div

V Y - V Z 5V/div

R L = 100?

200ns/div

RECEIVER PROPAGATION DELAY

(250kbps AND 500kbps)

V A - V B 5V/div

RO 2V/div

Typical Operating Characteristics (continued)

(V CC = +5.0V, T A = +25°C, unless otherwise noted.)

MAX13080E–MAX13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

_______________________________________________________________________________________9

Test Circuits and Waveforms

400ns/div

DRIVER PROPAGATION DELAY (500kbps)

DI 2V/div

R L = 100?

V Y - V Z 5V/div

10ns/div DRIVER PROPAGATION DELAY (16Mbps)

DI 2V/div

R L = 100?

V Y 2V/div

V Z 2V/div

40ns/div

RECEIVER PROPAGATION DELAY (16Mbps)

V B 2V/div

R L = 100?

RO 2V/div

V A 2V/div

Typical Operating Characteristics (continued)

(V CC = +5.0V, T A = +25°C, unless otherwise noted.)

Figure 2. Driver Timing Test Circuit

M A X 13080E –M A X 13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers 10

______________________________________________________________________________________

Test Circuits and Waveforms (continued)

Figure 4. Driver Enable and Disable Times (t DHZ , t DZH , t DZH(SHDN))

DZL DLZ DLZ(SHDN)

MAX13080E–MAX13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

______________________________________________________________________________________

11

Test Circuits and Waveforms (continued)

Figure 6. Receiver Propagation Delay Test Circuit

M A X 13080E –M A X 13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

MAX13080E–MAX13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

______________________________________________________________________________________13

MAX13080E/MAX13083E/MAX13086E

MAX13081E/MAX13084E/MAX13086E/MAX13087E

Function Tables

M A X 13080E –M A X 13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers 14______________________________________________________________________________________

MAX13082E/MAX13085E/MAX13088E

Function Tables (continued)

MAX13089E

Detailed Description The MAX13080E–MAX13089E high-speed transceivers for RS-485/RS-422 communication contain one driver and one receiver. These devices feature fail-safe circuit-ry, which guarantees a logic-high receiver output when the receiver inputs are open or shorted, or when they are connected to a terminated transmission line with all dri-vers disabled (see the Fail-Safe section). The MAX13080E/MAX13082E/MAX13083E/MAX13085E/ MAX13086E/MAX13088E/MAX13089E also feature a hot-swap capability allowing line insertion without erroneous data transfer (see the Hot Swap Capability section). The MAX13080E/MAX13081E/MAX13082E feature reduced slew-rate drivers that minimize EMI and reduce reflec-tions caused by improperly terminated cables, allowing error-free data transmission up to 250kbps. The MAX13083E/MAX13084E/MAX13085E also offer slew-rate limits allowing transmit speeds up to 500kbps. The MAX13086E/MAX13087E/MAX13088Es’ driver slew rates are not limited, making transmit speeds up to 16Mbps possible. The MAX13089E’s slew rate is selectable between 250kbps, 500kbps, and 16Mbps by driving a selector pin with a three-state driver.

The MAX13082E/MAX13085E/MAX13088E are half-duplex transceivers, while the MAX13080E/MAX13081E/ MAX13083E/MAX13084E/MAX13086E/MAX13087E are full-duplex transceivers. The MAX13089E is selectable between half- and full-duplex communication by driving a selector pin (H/F) high or low, respectively.

All devices operate from a single +5.0V supply. Drivers are output short-circuit current limited. Thermal-shutdown circuitry protects drivers against excessive power dissi-pation. When activated, the thermal-shutdown circuitry places the driver outputs into a high-impedance state.

Receiver Input Filtering The receivers of the MAX13080E–MAX13085E, and the MAX13089E when operating in 250kbps or 500kbps mode, incorporate input filtering in addition to input hysteresis. This filtering enhances noise immunity with differential signals that have very slow rise and fall times. Receiver propagation delay increases by 25% due to this filtering.

Fail-Safe The MAX13080E family guarantees 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 receiv-

er’s differential input voltage is pulled to 0V by the termi-nation. With the receiver thresholds of the MAX13080E family, this results in 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.

Hot-Swap Capability (Except MAX13081E/MAX13084E/MAX13087E)

Hot-Swap Inputs

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 CC or GND to the enable inputs. Without the hot-swap capability, these factors could improperly enable the transceiver’s driver or receiver.

When V CC rises, an internal pulldown circuit holds DE

low and RE high. After the initial power-up sequence,

the pulldown circuit becomes transparent, resetting the

hot-swap tolerable input.

Hot-Swap Input Circuitry

The enable inputs feature hot-swap capability. At the

input there are two NMOS devices, M1 and M2 (Figure 9). When V CC ramps from zero, an internal 7μs

timer 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

5k?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 three-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 CC

drops below 1V, the hot-swap input is reset.

For RE there is a complementary circuit employing two PMOS devices pulling RE to V CC. MAX13080E–MAX13089E

+5.0V, ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

______________________________________________________________________________________15

M A X 13080E –M A X 13089E

MAX13089E Programming

The MAX13089E has several programmable operating modes. Transmitter rise and fall times are programma-ble, resulting in maximum data rates of 250kbps,500kbps, and 16Mbps. To select the desired data rate,drive SRL to one of three possible states by using a three-state driver: V CC , GND, or unconnected. F or 250kbps operation, set the three-state device in high-impedance mode or leave SRL unconnected. F or 500kbps operation, drive SRL high or connect it to V CC .F or 16Mbps operation, drive SRL low or connect it to GND. SRL can be changed during operation without interrupting data communications.

Occasionally, twisted-pair lines are connected backward from normal orientation. The MAX13089E has two pins that invert the phase of the driver and the receiver to cor-rect this problem. F or normal operation, drive TXP and RXP low, connect them to ground, or leave them uncon-nected (internal pulldown). To invert the driver phase,drive TXP high or connect it to V CC . To invert the receiver phase, drive RXP high or connect it to V CC . Note that the receiver threshold is positive when RXP is high.

The MAX13089E can operate in full- or half-duplex mode. Drive H/F low, leave it unconnected (internal pulldown), or connect it to GND for full-duplex opera-tion. Drive H/F high for half-duplex operation. In full-duplex mode, the pin configuration of the driver and receiver is the same as that of a MAX13080E. In half-duplex mode, the receiver inputs are internally connect-ed to the driver outputs through a resistor-divider. This effectively changes the function of the device’s outputs.Y becomes the noninverting driver output and receiver input, Z becomes the inverting driver output and receiver input. In half-duplex mode, A and B are still connected to ground through an internal resistor-divider but they are not internally connected to the receiver.

±15kV ESD Protection

As with all Maxim devices, ESD-protection structures are incorporated on all pins to protect against electro-static discharges encountered during handling and assembly. The driver outputs and receiver inputs of the MAX13080E family of devices have extra protection against static electricity. Maxim’s engineers have devel-oped state-of-the-art structures to protect these pins against ESD of ±15kV without damage. The ESD struc-tures withstand high ESD in all states: normal operation,shutdown, and powered down. After an ESD event, the MAX13080E–MAX13089E keep working without latchup or damage.

ESD protection can be tested in various ways. The transmitter outputs and receiver inputs of the MAX13080E–MAX13089E are characterized for protec-tion to the following limits:

?±15kV using the Human Body Model

?±6kV using the Contact Discharge method specified in IEC 61000-4-2

ESD Test Conditions

ESD performance depends on a variety of conditions.Contact Maxim for a reliability report that documents test setup, test methodology, and test results.

Human Body Model

Figure 10a shows the Human Body Model, and Figure 10b shows the current waveform it generates when dis-charged into a low impedance. This model consists of a 100pF capacitor charged to the ESD voltage of interest,which is then discharged into the test device through a 1.5k ?resistor.

IEC 61000-4-2

The IEC 61000-4-2 standard covers ESD testing and performance of finished equipment. However, it does not specifically refer to integrated circuits. The MAX13080E family of devices helps you design equip-ment to meet IEC 61000-4-2, without the need for addi-tional ESD-protection components.

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers 16

______________________________________________________________________________________

The major difference between tests done using the Human Body Model and IEC 61000-4-2 is higher peak current in IEC 61000-4-2 because series resistance is lower in the IEC 61000-4-2 model. Hence, the ESD with-stand voltage measured to IEC 61000-4-2 is generally lower than that measured using the Human Body Model.Figure 10c shows the IEC 61000-4-2 model, and Figure 10d shows the current waveform for IEC 61000-4-2 ESD Contact Discharge test.

Machine Model

The machine model for ESD tests all pins using a 200pF storage capacitor and zero discharge resis-tance. The objective is to emulate the stress caused when I/O pins are contacted by handling equipment during test and assembly. Of course, all pins require this protection, not just RS-485 inputs and outputs.

Applications Information

256 Transceivers on the Bus

The standard RS-485 receiver input impedance is 12k ?(1-unit load), and the standard driver can drive up to 32-unit loads. The MAX13080E family of transceivers has a 1/8-unit load receiver input impedance (96k ?), allowing up to 256 transceivers to be connected in parallel on one communication line. Any combination of these devices,as well as other RS-485 transceivers with a total of 32-unit loads or fewer, can be connected to the line.

Reduced EMI and Reflections

The MAX13080E/MAX13081E/MAX13082E feature reduced slew-rate drivers that minimize EMI and reduce reflections caused by improperly terminated cables, allowing error-free data transmission up to 250kbps. The MAX13083E/MAX13084E/MAX13085E offer higher driver output slew-rate limits, allowing transmit speeds up to 500kbps. The MAX13089E with SRL = V CC or unconnected are slew-rate limited. With SRL unconnected, the MAX13089E error-free data transmission is up to 250kbps. With SRL connected to V CC ,the data transmit speeds up to 500kbps.

MAX13080E–MAX13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

______________________________________________________________________________________

17

M A X 13080E –M A X 13089E

Low-Power Shutdown Mode (Except MAX13081E/MAX13084E/MAX13087E)

Low-power shutdown mode is initiated by bringing both RE high and DE low. In shutdown, the devices typically draw only 2.8μA of supply current.

RE and DE can be driven simultaneously; the devices are guaranteed not to enter shutdown if RE is high and DE is low for less than 50ns. If the inputs are in this state for at least 700ns, the devices are guaranteed to enter shutdown.

Enable times t ZH and t ZL (see the Switching Characteristics section) assume the devices were not in a low-power shutdown state. Enable times t ZH(SHDN)and t ZL(SHDN)assume the devices were in shutdown state. It takes drivers and receivers longer to become enabled from low-power shutdown mode (t ZH(SHDN), t ZL(SHDN))than from driver/receiver-disable mode (t ZH , t ZL ).

Driver Output Protection

Two mechanisms prevent excessive output current and power dissipation caused by faults or by bus contention.The first, a foldback current limit on the output stage,provides immediate protection against short circuits over the whole common-mode voltage range (see the Typical Operating Characteristics ). The second, a thermal-shut-down circuit, forces the driver outputs into a high-imped-ance state if the die temperature exceeds +175°C (typ).

Line Length

The RS-485/RS-422 standard covers line lengths up to 4000ft. F or line lengths greater than 4000ft, use the repeater application shown in Figure 11.

Typical Applications

The MAX13082E/MAX13085E/MAX13088E/MAX13089E transceivers are designed for bidirectional data commu-nications on multipoint bus transmission lines. F igures 12 and 13 show typical network applications circuits. To minimize reflections, terminate the line at both ends in its characteristic impedance, and keep stub lengths off the main line as short as possible. The slew-rate-lim-ited MAX13082E/MAX13085E and the two modes of the MAX13089E are more tolerant of imperfect termination.

Chip Information

TRANSISTOR COUNT: 1228PROCESS: BiCMOS

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers 18

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Figure 11. Line Repeater for MAX13080E/MAX13081E/

MAX13083E/MAX13084E/MAX13086E/MAX13087E/MAX13089E in Full-Duplex Mode

MAX13080E–MAX13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

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M A X 13080E –M A X 13089E

+5.0V , ±15kV ESD-Protected, Fail-Safe, Hot-Swap, RS-485/RS-422 Transceivers

Pin Configurations and Typical Operating Circuits

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