UM3085E/UM3088E

UM3085E/UM3088E
±15kV ESD-Protected, Slew-Rate-Limited, Fail-Safe, True
RS-485 Transceivers
UM3085E/UM3088E SOP8/DIP8
General Description
The UM3085E, UM3088E are ±15kV ESD-protected, high-speed transceivers for RS-485
communication that contain one driver and one receiver. These devices feature fail-safe circuitry,
which guarantees a logic-high receiver output when the receiver inputs are open, shorted or idle.
This means that the receiver output will be logic high if all transmitters on a terminated bus are
disabled (high impedance). The UM3085E features reduced slew-rate driver that minimizes EMI
and reduces reflections caused by improperly terminated cables, allowing error-free data
transmission up to 500kbps. While partially slew-rate limited UM3088E speeds up to 2.5Mbps.
All devices feature enhanced ESD protection. All transmitter outputs and receiver inputs are
protected to ±15kV using the Human Body Model and IEC61000-4-2, Air-Gap Discharge.
The transceivers typically draw 400μA of supply current when unloaded, or when fully loaded
with the drivers disabled. All devices have a 1/8-unit-load receiver input impedance that allows up
to 256 transceivers on the bus and are intended for half-duplex communications.
Applications
Features
z
z
z
z
z
RS-485 Transceivers
Level Translators
Industrial-Control Local Area
Networks
Transceivers for EMI-Sensitive
Applications
z
z
z
z
z
z
z
ESD Protection for RS-485 I/O Pins
±15kV—Human Body Model
±15kV—IEC61000-4-2, Air-Gap Discharge
True Fail-Safe Receiver while Maintaining
EIA/TIA-485 Compatibility
Enhanced Slew-Rate Limiting Facilitates
Error-Free Data Transmission
2nA Low-Current Shutdown Mode
–7V to +12V Common-Mode Input Voltage
Range
Allows up to 256 Transceivers on the Bus
Thermal Shutdown
Current-Limiting for Driver Overload
Protection
Ordering Information
Part Number
Operating Temperature
Mark Code
Package Type
UM3085EESA
-40°C to +85°C
UM3085EESA
SOP8
UM3085EEPA
-40°C to +85°C
UM3085EEPA
DIP8
UM3088EESA
-40°C to +85°C
UM3088EESA
SOP8
UM3088EEPA
-40°C to +85°C
UM3088EEPA
DIP8
Selection Guide
Part
Number
UM3085E
UM3088E
Guaranteed
Date Rate
(Mbps)
0.5
2.5
Low-Power
Shutdown
Slew-Rate
Limited
Yes
Yes
Yes
Yes
Driver/
Receiver
Enable
Yes
Yes
Shutdown
Transceivers
Current
On Bus
(nA)
2
256
2
256
±15kV
ESD
Protection
Yes
Yes
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UM3085E/UM3088E
Absolute Maximum Ratings
Symbol
Parameter
Value
Unit
VCC
Supply Voltage
+7
V
Control Input Voltage (/RE, DE)
-0.3V to (VCC + 0.3V)
V
Driver Input Voltage (DI)
-0.3V to (VCC + 0.3V)
V
Driver Output Voltage (A, B)
-7.5 to +12.5
V
Receiver Input Voltage (A, B)
-7.5 to +12.5
V
Receiver Output Voltage (RO)
-0.3V to (VCC + 0.3V)
V
TA
Ambient Temperature
-40 to +85
°C
TSTG
Storage Temperature Range
-65 to +160
°C
TL
Lead Temperature for Soldering 10 seconds
+300
°C
DC Electrical Characteristics
(VCC = +5V ± 5%, TA = TMIN to TMAX, unless otherwise noted. Typical values are at VCC = +5V
and TA = +25°C.) (Note 1)
Parameter
Symbol
Test Conditions
Min
Typ
Max
Unit
SUPPLY CURRENT
Supply Current
ICC
Supply Current in Shutdown
Mode
ISHDN
DE = VCC,
0.3
No load, _______
R
E
=0V
or
V
CC
DI = GND
DE =0V,
or VCC
_______
0.25
R E =0V
_______
DE = GND, R E = VCC
mA
0.002
10
µA
LOGIC
______
Input High Voltage
VIH1
DE, DI, R E
Input Low Voltage
VIL1
DE, DI, R E
DI Input Hysteresis
VHYS
UM3085E
2.0
V
______
0.8
100
V
mV
DRIVER
Differential Driver Output
VOD1
No Load, Figure 2
Differential Driver Output
VOD2
Figure 2, R = 50Ω
Change-in-Magnitude of
Differential Output Voltage
ΔVOD
Figure 2, R = 50Ω;
(Note 2)
0.2
Driver Common-Mode
Output Voltage
VOC
Figure 2, R = 50Ω
3.0
V
Change-in-Magnitude of
Common-Mode Voltage
ΔVOC
Figure 2, R = 50Ω;
(Note 2)
0.2
V
Driver Short-Circuit Output
Current (Note 3)
IOSD
5
1.5
V
V
VOUT = -7V
-250
VOUT = 12V
250
V
mA
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UM3085E/UM3088E
DC Electrical Characteristics (Continued)
(VCC = +5V ± 5%, TA = TMIN to TMAX, unless otherwise noted. Typical values are at VCC= +5V and
TA = +25°C.) (Note 1)
Parameter
Symbol
Test Conditions
Min
-200
Typ
Max
Unit
-50
mV
RECEIVER
Receiver Differential
Threshold Voltage
VTH
-7V≤VCM≤12V
Receiver Input Hysteresis
ΔVTH
VCM=0V
Receiver Input Resistance
RIN
-7V≤VCM≤12V
Input Current (A and B)
IIN2
DE = GND,
VCC = GND
or 5V
25
mV
96
KΩ
VIN = 12V
1.0
VIN = -7V
-0.8
mA
Receiver Output High Voltage
VOH
IO = -1.5mA, VID = 200mV VCC -1.5
Receiver Output Low Voltage
VOL
IO = 2.5mA, VID = 200mV
0.4
V
Three-State Output Current at
Receiver
IOZR
VCC = 5V, 0V ≤ VO ≤ VCC
±1
µA
Receiver Output Short Circuit
Current
IOSR
0V≤VRO ≤VCC
±60
mA
V
±8
ESD Protection
ESD Protection for A, B
Human Body Model
IEC61000-4-2 Air Discharge
IEC61000-4-2 Contact
±15
±15
±8
kV
Note 1: All currents into the device are positive; all currents out of the device are negative. All
voltages are referred to device ground unless otherwise noted.
Note 2: ΔVOD and ΔVOC are the changes in VOD and VOC, respectively, when the DI input
changes state.
Note 3: Maximum current level applies to peak current just prior to fold back current limiting;
minimum current level applies during current limiting.
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UM3085E/UM3088E
Switching Characteristics (UM3085E)
(VCC = +5V ± 5%, TA = TMIN to TMAX, unless otherwise noted. Typical values are at VCC = +5V
and TA = +25°C.)
Parameter
Maximum Data Rate
Driver Input-to-Output
Driver Output Skew
| tDPLH - tDPHL |
Symbol
Test Conditions
Min
fMAX
tDPLH
tDPHL
tDSKEW
Typ
Max
500
Figures 3 and 7, RDIFF = 54Ω,
CL1 = CL2 = 100pF
Unit
kbps
250
720
1000
250
720
1000
3
100
ns
530
750
ns
Figures 3 and 7, RDIFF = 54Ω,
CL1 = CL2 = 100pF
ns
Driver Rise or Fall Time
tDR, tDF
Figures 3 and 7, RDIFF = 54Ω,
CL1 = CL2 = 100pF
Driver Enable to Output High
tDZH
Figures 4 and 8, CL = 100pF,
S2 closed
2500
ns
Driver Enable to Output Low
tDZL
Figures 4 and 8, CL = 100pF,
S1 closed
2500
ns
Driver Disable Time from
Low
tDLZ
Figures 4 and 8, CL = 15pF,
S1 closed
100
ns
Driver Disable Time from
High
tDHZ
Figures 4 and 8, CL = 15pF,
S2 closed
100
ns
Receiver Input to Output
tRPLH,
tRPHL
| VID | ≥2.0V;
rise and fall time of VID≤ 15ns
127
200
ns
Differential
Receiver Skew
| tRPLH - tRPHL |
tRSKD
Figures 6 and 9; | VID | ≥2.0V;
rise and fall time of VID≤ 15ns
3
30
ns
Receiver Enable to Output
Low
tRZL
Figures 5 and 10, CL = 100pF,
S1 closed
20
50
ns
Receiver Enable to Output
High
tRZH
Figures 5 and 10, CL = 100pF,
S2 closed
20
50
ns
Receiver Disable Time from
Low
tRLZ
Figures 5 and 10, CL = 100pF,
S1 closed
20
50
ns
Receiver Disable Time from
High
tRHZ
Figures 5 and 10, CL = 100pF,
S2 closed
20
50
ns
Time to Shutdown
tSHDN
(Note 4)
200
600
ns
Driver Enable from
Shutdown to Output High
tDZH(SHDN)
Figures 4 and 8, CL = 15pF,
S2 closed
4500
ns
Driver Enable from
Shutdown to Output Low
tDZL(SHDN)
Figures 4 and 8, CL = 15pF,
S1 closed
4500
ns
Receiver Enable from
Shutdown to Output High
tRZH(SHDN)
Figures 5 and 10, CL = 100pF,
S2 closed
3500
ns
Receiver Enable from
Shutdown to Output Low
tRZL(SHDN)
Figures 5 and 10, CL = 100pF,
S1 closed
3500
ns
200
50
_______
Note 4: The device is put into shutdown by bringing R E high and DE low. If the enable inputs
are in this state for less than 50ns, the device is guaranteed not to enter shutdown. If the enable
inputs are in this state for at least 600ns, the device is guaranteed to have entered shutdown.
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UM3085E/UM3088E
Switching Characteristics (UM3088E)
(VCC = +5V ± 5%, TA = TMIN to TMAX, unless otherwise noted. Typical values are at VCC = +5V
and TA = +25°C.)
Parameter
Maximum Data Rate
Driver Input-to-Output
Driver Output Skew
| tDPLH - tDPHL |
Symbol
Test Conditions
Min
fMAX
tDPLH
tDPHL
tDSKEW
Typ
Max
2.5
Unit
Mbps
34
60
34
60
Figures 3 and 7, RDIFF = 54Ω,
CL1 = CL2 = 100pF
2.5
10
ns
14
25
ns
Figures 3 and 7, RDIFF = 54Ω,
CL1 = CL2 = 100pF
ns
Driver Rise or Fall Time
tDR, tDF
Figures 3 and 7, RDIFF = 54Ω,
CL1 = CL2 = 100pF
Driver Enable to Output High
tDZH
Figures 4 and 8, CL = 100pF,
S2 closed
150
ns
Driver Enable to Output Low
tDZL
Figures 4 and 8, CL = 100pF,
S1 closed
150
ns
Driver Disable Time from
Low
tDLZ
Figures 4 and 8, CL = 15pF,
S1 closed
100
ns
Driver Disable Time from
High
tDHZ
Figures 4 and 8, CL = 15pF,
S2 closed
100
ns
Receiver Input to Output
tRPLH,
tRPHL
| VID | ≥2.0V;
rise and fall time of VID≤ 15ns
106
150
ns
Differential
Receiver Skew
| tRPLH - tRPHL |
tRSKD
Figures 6 and 9; | VID | ≥2.0V;
rise and fall time of VID≤ 15ns
0
10
ns
Receiver Enable to Output
Low
tRZL
Figures 5 and 10, CL = 100pF,
S1 closed
20
50
ns
Receiver Enable to Output
High
tRZH
Figures 5 and 10, CL = 100pF,
S2 closed
20
50
ns
Receiver Disable Time from
Low
tRLZ
Figures 5 and 10, CL = 100pF,
S1 closed
20
50
ns
Receiver Disable Time from
High
tRHZ
Figures 5 and 10, CL = 100pF,
S2 closed
20
50
ns
Time to Shutdown
tSHDN
(Note 4)
200
600
ns
Driver Enable from
Shutdown to Output High
tDZH(SHDN)
Figures 4 and 8, CL = 15pF,
S2 closed
250
ns
Driver Enable from
Shutdown to Output Low
tDZL(SHDN)
Figures 4 and 8, CL = 15pF,
S1 closed
250
ns
Receiver Enable from
Shutdown to Output High
tRZH(SHDN)
Figures 5 and 10, CL = 100pF,
S2 closed
3500
ns
Receiver Enable from
Shutdown to Output Low
tRZL(SHDN)
Figures 5 and 10, CL = 100pF,
S1 closed
3500
ns
50
_______
Note 4: The device is put into shutdown by bringing R E high and DE low. If the enable inputs
are in this state for less than 50ns, the device is guaranteed not to enter shutdown. If the enable
inputs are in this state for at least 600ns, the device is guaranteed to have entered shutdown.
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UM3085E/UM3088E
Pin Description
Pin Number
Symbol
Function
1
RO
Receiver Output. If A＞B by -50mV, RO will be high; if A＜B by
200mV, RO will be low.
______
Receiver Output Enable. Drive RE low to enable Receiver, RO is
______
______
high impedance when RE is high. Drive RE high and DE low
to enter low-power shutdown mode.
Driver Enable. Drive DE high to enable drivers. The outputs are
______
high impedance when DE is low. Drive RE high and DE low to
enter low-power shutdown mode.
Driver Input. A low on DI forces output A low and output B high.
Similarly, a high on DI forces output A high and output B low.
Ground
2
_______
3
DE
4
DI
5
GND
6
A
Non-inverting Receiver Input and Non-inverting Driver Output
7
B
Inverting Receiver Input and Inverting Driver Output,
8
VCC
RE
Power Supply for RS-485 transceiver
RS-485 Communication Function Table
Table1. Transmitting
INPUTS
OUTPUTS
______
DE
DI
B
A
RE
X
1
1
0
1
X
1
0
1
0
0
0
X
High-Z
High-Z
1
0
X
High-Z
High-Z
X=Don’t care; High-Z=High impedance
Table2. Receiving
INPUTS
______
DE
A, B
RE
0
X
>-50mV
0
X
<-200mV
0
X
Inputs Open
1
0
X
X=Don’t care; High-Z=High impedance
OUTPUTS
RO
1
0
1
High-Z
MODE
Normal
Normal
Normal
Shutdown
MODE
Normal
Normal
Normal
Shutdown
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UM3085E/UM3088E
Typical Operating Circuit
120ohm
120ohm
DI
B
DE
B
B
D
D
A
DE
A
A
B
RO
RE
A
B
A
R
R
Master Node
R
D
DI
DI
RO
RE
Terminal Slave Node
R
D
DE
RO RE
Slave Node1
DI
DE
RO RE
Slave Node N
Figure 1. Typical Half-Duplex RS-485 Network
Test Circuit
B
3V
DE
RLOAD/2
CL2
A
DI
VOD2
RDIFF
B
VOD
CL1
RLOAD/2 VOC
A
Figure 2. Driver DC Test Load
500ohm
Driver Output
Under Test
Figure 3. Driver Timing Test Circuit
S1
1K
Test Point
Receive
Output
CRL
+
CL
VCC
15pF
S1
+
1K
S2
S2
Figure 4. Driver Enable/Disable Timing Test Load
B
ATE
R
VD
A
Figure 5. Receiver Enable/Disable Timing Test Load
Receiver
Output
Figure 6. Receiver Propagation Delay Test Circuit
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VCC
UM3085E/UM3088E
5V
DI 0V
5V
1.5V
1.5V
tDPLH
B
tDPHL
DE 0V
1/2VO
VO
1/2VO
1.5V
1.5V
tDZL(SHDN), tDZL
B VOH
tDLZ
2.3V
A
VOL
VO
90%
VDIFF = V B - V A
VDIFF 0V
-VO
90%
VOH
2.3V
t SKEW=|t DPLH-t DPHL|
10%
A VOL
VOL+0.5V
Output Normally High
VOH-0.5V
tDZH(SHDN), tDZH
10%
tDR
Output Normally Low
tDHZ
tDF
Figure 7. Driver Propagation Delays
Figure 8. Driver Enable and Disable Times
5V
RE
0V
VOH
VOH
RO
VOL
1.5V
OUTPUT
tRPHL
A 1V
1.5V
tRPLH
1.5V
tRZL(SHDN), tRZL
tRLZ
1.5V
Output Normally Low
VOL+0.5V
1.5V
Output Normally High
VOH-0.5V
RO
INPUT
B -1V
1.5V
VOL
tRZH(SHDN), tRZH
Figure 9. Receiver Propagation Delays
tRHZ
Figure 10. Receiver Enable and Disable Times
Detail Description
The UM3085E, UM3088E high-speed transceivers for RS-485 communication contain one driver
and one receiver. These devices feature fail-safe circuitry, 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 drivers disabled. The UM3085E features reduced slew-rate driver that
minimizes EMI and reduces reflections caused by improperly terminated cables, allowing
error-free data transmission up to 500kbps. While partially slew-rate limited UM3088E speeds up
to 2.5Mbps.
All of the parts operate from a single +5V supply. Drivers are output short-circuit current limited.
Thermal shutdown circuitry protects drivers against excessive power dissipation. When activated,
the thermal shutdown circuitry places the driver outputs into a high impedance state.
Fail-Safe
The UM3085E, UM3088E 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 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 UM3085E, UM3088E, 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.
±15kV ESD Protection
As with all Union devices, ESD-protection structures are incorporated on all pins to protect
against electrostatic discharges encountered during handling and assembly. The driver outputs and
receiver inputs of the UM3085E, UM3088E have extra protection against static electricity.
Union’s engineers have developed state-of-the-art structures to protect these pins against ESD of
±15kV without damage. The ESD-protected pins are tested with reference to the ground pin in a
powered-down condition. They are tested to ±15kV using the Human Body Model.
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UM3085E/UM3088E
Applications Information
256 Transceivers on the Bus
The standard RS-485 receiver input impedance is 12kΩ (one unit load), and the standard driver
can drive up to 32 unit loads. The Union family of transceivers have a 1/8 unit load receiver
input impedance (96kΩ), allowing up to 256 transceivers to be connected in parallel on one
communication line. Any combination of these devices and/or other RS-485 transceivers with a
total of 32 unit loads or less can be connected to the line.
Reduced EMI and Reflections
The UM3085E is slew-rate limited, minimizing EMI and reducing reflections caused by
improperly terminated cables. In general, a transmitter’s rise time relates directly to the length of
an unterminated stub, which can be driven with only minor waveform reflections. The following
equation expresses this relationship conservatively:
Length=tRISE/(10×1.5ns/ft)
Where tRISE is the transmitter’s rise time.
A system can work well with longer unterminated stubs, even with severe reflections, if the
waveform settles out before the UART samples them.
Low-Power Shutdown Mode
______
Low-power shutdown mode is initiated by bringing both R E high and DE low. In shutdown, the
______
device typically draws only 2nA of supply current. R E and DE may be driven simultaneously;
______
the parts are guaranteed not to enter shutdown if R E is high and DE is low for less than 50ns. If
the inputs are in this state for at least 600ns, the parts are guaranteed to enter shutdown. Enable
times tZH and tZL in the Switching Characteristics tables assume the part was not in a low-power
shutdown state. Enable times tZH(SHDN) and tZL(SHDN) assume the parts were shut down. It takes
drivers and receivers longer to become enabled from low-power shutdown mode (tZH(SHDN),
tZL(SHDN)) than from driver/receiver-disable mode (tZH, tZL).
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. The second, a
thermal shutdown circuit, forces the driver outputs into a high-impedance state if the die
temperature becomes excessive.
Line Length vs. Data Rate
The RS-485/RS-422 standard covers line lengths up to 4000 feet. For line lengths greater than
4000 feet, repeater is required.
Typical Applications
The UM3085E, UM3088E transceivers are designed for bidirectional data communications on
multipoint bus transmission lines. To minimize reflections, the line should be terminated at both
ends in its characteristic impedance, and stub lengths off the main line should be kept as short as
possible.
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UM3085E/UM3088E
Package Information
SOP8
Outline Drawing
Symbol
A
A1
A2
b
c
D
E
E1
e
L
θ
DIMENSIONS
MILLIMETERS
INCHES
Min
Max
Min
Max
1.350
1.750
0.053
0.069
0.100
0.250
0.004
0.010
1.350
1.550
0.053
0.061
0.33
0.51
0.013
0.020
0.170
0.250
0.006
0.010
4.700
5.100
0.185
0.200
3.800
4.000
0.150
0.157
5.800
6.200
0.228
0.244
1.270 (BSC)
0.050 (BSC)
0.400
1.270
0.016
0.050
0°
8°
0°
8°
Land Pattern
NOTES:
1. Compound dimension: 4.90×3.90 ;
2. Unit: mm;
3. General tolerance ±0.05mm unless otherwise
specified;
4. The layout is just for reference.
Tape and Reel Orientation
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UM3085E/UM3088E
DIP8
Symbol
A
A1
A2
A3
b
b1
C
D (8 PIN)
D1
E
E1
e
eA
eB
L
A1
L
A3
A2
A
Outline Drawing
DIMENSIONS
MILLIMETERS
Min
Max
5.08
0.38
3.18
4.45
1.40
2.03
0.41
0.56
1.14
1.65
0.20
0.30
8.84
9.91
0.13
2.03
7.62
8.26
6.10
7.87
2.54
7.62
10.16
2.92
3.81
INCHES
Min
0.015
0.125
0.055
0.016
0.045
0.008
0.348
0.005
0.300
0.240
0.100
0.300
0.115
Max
0.200
0.175
0.080
0.022
0.065
0.012
0.390
0.080
0.325
0.310
0.400
0.150
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UM3085E/UM3088E
IMPORTANT NOTICE
The information in this document has been carefully reviewed and is believed to be
accurate. Nonetheless, this document is subject to change without notice. Union assumes
no responsibility for any inaccuracies that may be contained in this document, and makes
no commitment to update or to keep current the contained information, or to notify a
person or organization of any update. Union reserves the right to make changes, at any
time, in order to improve reliability, function or design and to attempt to supply the best
product possible.
Union Semiconductor, Inc
Add: 2F, Building 3, Lane 647, Songtao Road, Shanghai 201203
Tel: 021-51093966
Fax: 021-51026018
Website: www.union-ic.com
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