PHILIPS MC145406D

Philips Semiconductors Linear Products
Product specification
EIA-232-D/V.28 driver/receiver
MC145406
DESCRIPTION
PIN CONFIGURATION
The MC145406 is a silicon-gate CMOS IC that combines 3 drivers
and 3 receivers to fulfill the electrical specifications of standards
EIA-232-D and CCITT V.28. The drivers feature true TTL input
compatibility, slew-rate limited output, 300Ω power-off source
impedance, and output typically switching to within 25% of the
supply rails. The receivers can handle up to +25V while presenting
3 to 7kΩ impedance. Hysteresis in the receiver aids reception of
noisy signals. By combining both drivers and receivers in a single
CMOS chip, the MC145406 provides efficient, low-power solutions
for EIA-232-D and V.28 applications.
D and N Packages
APPLICATIONS
• Modem interface
• Voice/data telephone interface
• Lap-top computers
• UART interface
VDD
1
16
VCC
RX1
2
15
DO1
TX1
3
14
DI1
RX2
4
13
DO2
TX2
5
RX3
6
TX3
7
VSS
8
R
D
R
D
R
D
12
DI2
11
DO3
10
DI3
9
GND
NOTE:
D = Driver
R = Receiver
• Maximum slew rate = 30V/µs
• Receivers
• +25V input voltage range over the full supply range
• 3 to 7kΩ input impedance
• Hysteresis on input switchpoint
• General
• Very low supply currents for long battery life
• Operation is independent of power supply sequencing
FEATURES
• Drivers
• +5 to +12V supply range
• 300Ω power-off source impedance
• Output current limiting
• TTL compatible
ORDERING INFORMATION
DESCRIPTION
TEMPERATURE RANGE
ORDER CODE
DWG #
16-Pin Plastic Dual In-Line (DIP) Package
0 to +70°C
MC145406N
0406C
16-Pin Small Outline Large (SOL) Package
0 to +70°C
MC145406D
0171B
ABSOLUTE MAXIMUM RATINGS
SYMBOL
RATING
UNITS
VCC
Supply voltage
PARAMETER
-0.5 to +6.0
V
VDD
Supply voltage
-0.5 to +13.5
V
VSS
Supply voltage
+0.5 to -13.5
V
VIR
Input voltage range
RX1-3 inputs
DI1-3 inputs
(VSS - 15) to (VDD + 15)
-0.5 to (VCC + 0.5)
V
+100
mA
PD
DC current per pin
Power dissipation (package)
1.0
W
TA
Operating temperature range
0 to +70
TSTG
θJA
Storage temperature range
Thermal impedance
N package
D package
-65 to +150
°C
°C
80
105
°C/W
NOTE: This device contains protection circuitry to protect the inputs against damage due to high static voltages or electric fields; however, it is
advised that normal precautions be taken to avoid application of any voltage higher than maximum rated voltages to this high impedance circuit.
For proper operation, it is recommended that the voltages at the DI and DO pins be constrained to the range GND < VDI < VDD and GND < VDO
< VCC. Also, the voltage at the RX pin should be constrained to +25V, and TX should be constrained to VSS < VTX1-3 < VDD. Unused inputs
must always be tied to an appropriate logic voltage level (e.g., GND or VCC for DI, and VSS or VDD for RX).
August 31, 1994
467
853-1430 13721
Philips Semiconductors Linear Products
Product specification
EIA-232-D/V.28 driver/receiver
MC145406
BLOCK DIAGRAM
RECEIVER
VCC
VCC
15k
RX
+
DO
–
5.4k
VSS
1.0V
VDD
1.8V
DRIVER
HYSTERESIS
VCC
300
TX
LEVEL
+
SHIFT
–
DI
1.4V
VSS
PIN #
SYMBOL
1
VDD
Positive power supply. The most positive power supply pin, which is typically 5 to 12 volts.
8
VSS
Negative power supply. The most negative power supply pin, which is typically -5 to -12 volts.
16
VCC
Digital power supply. The digital supply pin, which is connected to the logic power supply (maximum +5.5V).
9
GND
Ground. Ground return pin is typically connected to the signal ground pin of the EIA-232-D connector (Pin 7)
as well as to the logic power supply ground.
2, 4, 6
RX1, RX2, RX3
Receive Data Input. These are the EIA-232-D receive signal inputs whose voltages can range from +25 to
-25V. A voltage between +3 and +25 is decoded as a space and causes the corresponding DO pin to swing
to ground (0V); a voltage between -3 and -25V is decoded as a mark and causes the DO pin to swing up to VCC.
The actual turn-on input switchpoint is typically biased at 1.8V above ground, and includes 800mV of hysteresis
for noise rejection. The nominal input impedance is 5kΩ. An open or grounded input pin is interpreted as a mark,
forcing the DO pin to VCC.
11, 13, 15
DO1, DO2, DO3
Data Output. These are the receiver digital output pins, which swing from VCC to GND. A space on the RX
pin causes DO to produce a logic zero; a mark produces a logic one. Each output pin is capable of driving one
LSTTL input load.
10, 12, 14
DI1, DI2, DI3
Data Input. These are the high-impedance digital input pins to the drivers. TTL compatibility is accomplished
by biasing the input switchpoint at 1.4V above ground. However, 5V CMOS compatibility is maintained as well.
Input voltage levels on these pins must be between VCC and GND.
3, 5, 7
TX1, TX2, TX3
Transmit Data Output. These are the EIA-232-D transmit signal output pins, which swing toward VDD and VSS.
A logic one at a DI input causes the corresponding TX output to swing toward VSS. A logic zero causes the
output to swing toward VDD (the output voltages will be slightly less than VDD or VSS depending upon the output
load). Output slew rates are limited to a maximum of 30V/µs. When the MC145406 is off (VDD = VSS = VCC
= GND), the minimum output impedance is 300Ω.
August 31, 1994
PIN DESCRIPTION
468
Philips Semiconductors Linear Products
Product specification
EIA-232-D/V.28 driver/receiver
MC145406
ABSOLUTE MAXIMUM RATINGS
SYMBOL
PARAMETER
RATING
UNITS
VCC
Supply voltage
-0.5 to +6.0
V
VDD
Supply voltage
-0.5 to +13.5
V
VSS
Supply voltage
+0.5 to -13.5
V
VIR
Input voltage range
RX1-3 inputs
DI1-3 inputs
(VSS - 15) to (VDD + 15)
-0.5 to (VCC + 0.5)
V
+100
mA
PD
DC current per pin
Power dissipation (package)
1.0
W
TA
Operating temperature range
0 to +70
°C
-65 to +150
°C
80
105
°C/W
TSTG
Storage temperature range
Thermal impedance
θJA
N package
D package
NOTE: This device contains protection circuitry to protect the inputs against damage due to high static voltages or electric fields; however, it is
advised that normal precautions be taken to avoid application of any voltage higher than maximum rated voltages to this high impedance circuit.
For proper operation, it is recommended that the voltages at the DI and DO pins be constrained to the range GND < VDI < VDD and GND < VDO
< VCC. Also, the voltage at the RX pin should be constrained to +25V, and TX should be constrained to VSS < VTX1-3 < VDD. Unused inputs
must always be tied to an appropriate logic voltage level (e.g., GND or VCC for DI, and VSS or VDD for RX).
DC ELECTRICAL CHARACTERISTICS
Typical values are at TA = 0 to 70°C; GND = 0V, unless otherwise specified.
LIMITS
SYMBOL
PARAMETER
TEST CONDITIONS
UNITS
MIN
TYP
MAX
VDD
4.5
5 to 12
13.2
V
VSS
-4.5
-5 to -12
-13.2
V
VCC
4.5
5.0
5.5
V
DC supply voltage
Quiescent supply current (outputs unloaded, inputs low)
IDD
VDD = +12V
20
400
µA
ISS
VSS = -12V
280
600
µA
ICC
VCC = +5V
260
450
µA
RECEIVER ELECTRICAL CHARACTERISTICS
Typical values are at TA = 0 to 70°C; GND = 0V; VDD = +5 to +12V; VSS = -5 to -12V; VCC = +5V +5%, unless otherwise specified.
LIMITS
SYMBOL
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNITS
VON
Input turn-on threshold
RX1-3
VDO1-3 = VOL, VCC = 5.0V +5%
1.35
1.80
2.35
V
VOFF
Input turn-off threshold
RX1-3
VDO1-3 = VOH, VCC = 5.0V +5%
0.75
1.00
1.25
V
Input threshold hysteresis
RX1-3
VCC = 5.0V +5%
0.6
0.8
VON-VOFF
RIN
Input resistance
RX1-3
(VSS-15V) < VRX1-3 < (VDD+15V)
3.0
5.0
VOH
High level output voltage
DO1-3
IOH = -20µA, VCC = +5.0V
4.9
5.0
IOH = -1mA, VCC = +5.0V
3.8
4.4
VRX1-3 = -3V to (VSS-15V)1
VOL
Low level output voltage
DO1-3
VRX1-3 = +3V to (VDD+15V)1
7.0
0.005
0.1
IOL = +2mA, VCC = +5.0V
0.15
0.5
IOL = +4mA, VCC = +5.0V
0.3
0.7
469
kΩ
V
IOL = +20µA, VCC = +5.0V
NOTE:
1. This is the range of input voltages as specified by EIA-232-D to cause a receiver to be in the high or low logic state.
August 31, 1994
V
V
Philips Semiconductors Linear Products
Product specification
EIA-232-D/V.28 driver/receiver
MC145406
DRIVER ELECTRICAL CHARACTERISTICS
Typical values are at TA = 0 to 70°C; GND = 0V; VCC = +5V +5%, unless otherwise specified.
LIMITS
SYMBOL
PARAMETER
TEST CONDITIONS
VIL
Digital input voltage
DI1-3
VIH
Digital input voltage
DI1-3
Logic 1
IIN
Input current
DI1-3
VDI1-3 = VCC
VOH
VOL
ISC
Output high voltage
TX1-3
VDI1-3 = Logic 0, RL = 3.0kΩ
Output low voltage1
TX1-3
VDI1-3 = Logic 0, RL = 3.0kΩ
Off source resistance
Figure 1
TX1-3
Output short-circuit current
TX1-3
VDD = +12.0V, VSS = -12.0V
MIN
TYP
Logic 0
3.5
V
+1.0
µA
V
4.1
VDD = +6.0V, VSS = -6.0V
4.3
5.0
VDD = +12.0V, VSS = -12.0V
9.2
10.4
VDD = +5.0V, VSS = -5.0V
-4.0
-4.3
VDD = +6.0V, VSS = -6.0V
-4.5
-5.2
VDD = +12.0V, VSS = -12.0V
-10.0
-10.3
VDD=VSS=GND=0V, VTX1-3 = +2.0V
300
TX1-3 shorted to GND2
+15.0V3
UNITS
0.8
2.0
VDD = +5.0V, VSS = -5.0V
TX1-3 shorted to
MAX
V
V
Ω
+22
+60
mA
+60
+100
mA
NOTE:
1. The voltage specifications are in terms of absolute values.
2. Specification is for one TX output pin to be shorted at a time. Should all three driver outputs be shorted simultaneously, device power dissipation limits will be exceeded.
3. This condition could exceed package limitations.
SWITCHING CHARACTERISTICS
Typical values are at TA = 0 to 70°C; VCC = +5V +5%, unless otherwise specified. (See Figures 2 and 3)
LIMITS
SYMBOL
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNITS
Drivers
tPLH
Propagation delay time
tPHL
SR
TX1-3
Low-to-High RL = 3kΩ, CL = 50pF
300
500
ns
Propagation delay time
TX1-3
High-to-Low RL = 3kΩ, CL = 50pF
300
500
ns
Output slew rate
(minimum load)
TX1-3
RL = 7kΩ, CL = 0pF,
VDD = 6 to 12.0V, VSS = -6 to -12V
+6
+30
Output slew rate
(maximum load)
TX1-3
RL = 3kΩ, CL = 2500pF,
VDD = 12V, VSS = -12V
+3.0
DO1-3
Low-to-High
150
425
ns
High-to-Low
V/µs
Receivers (CL = 50pF)
tPLH
Propagation delay time
tPHL
Propagation delay time
DO1-3
150
425
ns
tR
Output rise time
DO1-3
120
400
ns
tF
Output fall time
DO1-3
40
100
ns
August 31, 1994
470
Philips Semiconductors Linear Products
Product specification
EIA-232-D/V.28 driver/receiver
12
defines the electrical and physical interface between Data
Communication Equipment (DCE) and Data Terminal Equipment
(DTE). A DCE is connected to a DTE using a cable that typically
carries up to 25 leads, which allow the transfer of timing, data,
control, and test signals. The MC145406 provides the necessary
level shifting between the TTL/CMOS logic levels and the high
voltage levels of EIA-232-D (ranging from +3 to +25V).
16
1
14
MC145406
VDD
VCC
DI1
TX1
DI2
TX2
3
5
DRIVERS
VIN = +2V
10
DI3
TX3
VSS
8
As defined by the specification, an EIA-232-D driver presents a
voltage of between +5 to +15V into a load of between 3 to 7kΩ. A
logic one at the driver input results in a voltage of between -5 to
-15V. A logic zero results in a voltage between +5 to +15V. When
operating at +7 to +12V, the MC145406 meets this requirement.
When operating at +5V, the MC145406 drivers produce less than
+5V at the output (when terminated), which does not meet the
EIA-232-D specification. However, the output voltages when using
a +5V power supply are high enough (around +4V) to permit proper
reception by an EIA-232-D receiver, and can be used in applications
where strict compliance to EIA-232-D is not required.
7
ROUT =
9
VIN
I
Figure 1. Power-Off Source Resistance (Drivers)
DRIVERS
Another requirement of the MC145406 drivers is that they withstand
a short to another driver in the EIA-232-D cable. The worst-case
condition that is permitted by EIA-232-D is a +15V source that is
current limited to 500mA. The MC145406 drivers can withstand this
condition momentarily. In most short circuit conditions the source
driver will have a series 300Ω output impedance needed to satisfy
the EIA-232-D driver requirements. This will reduce the short circuit
current to under 40mA which is an acceptable level for the
MC145406 to withstand.
3V
50%
DI1-3
0V
tF
tF
90%
TX1-3
10%
tPHL
VOH
VOL
tPLH
Unlike some other drivers, the MC145406 drivers feature an
internally-limited output slew rate that does not exceed 30V/µs.
RECEIVERS
+3V
RECEIVERS
50%
RX1-3
The job of an EIA-232-D receiver is to level-shift voltages in the
range of -25 to +25V down to TTL/CMOS logic levels (0 to +5V). A
voltage of between -3 and -25V on RX1 is defined as a mark and
produces a logic one at DO1. A voltage between +3 and +25V is a
space and produces a logic zero. While receiving these signals, the
RX inputs must present a resistance between 3 and 7kΩ.
Nominally, the input resistance of the RX1-3 inputs is 5.0kΩ.
0V
tPHL
tPLH
VOH
DO1-3 90%
50%
10%
VOL
tF
tF
The input threshold of the RX1-3 inputs is typically biased at 1.8V
above ground (GND) with typically 800mV of hysteresis included to
improve noise immunity. The 1.8V bias forces the appropriate DO
pin to a logic one when its RX input is open or grounded as called
for in EIA-232-D specification. Notice that TTL logic levels can be
applied to the RX inputs in lieu of normal EIA-232-D signal levels.
This might be helpful in situations where access to the modem or
computer through the EIA-232-D connector is necessary with TTL
devices. However, it is important not to connect the EIA-232-D
outputs (TX1) to TTL inputs since TTL operates off +5V only, and
may be damaged by the high output voltage of the MC145406.
Figure 2. Switching Characteristics
DRIVERS
3V
3V
TX1-3
–3V
tSLH
SLEW RATE (SR) = –3V –3V
OR
tSLH
–3V
tSHL
3V – (–3V)
tSHL
The DO outputs are to be connected to a TTL or CMOS input (such
as an input to a modem chip). These outputs will swing from VCC to
ground, allowing the designer to operate the DO and DI pins from
the digital power supply. The TX and RX sections are independently
powered by VDD and VSS so that one may run logic at +5V and the
EIA-232-D signals at +12V.
Figure 3. Slew Rate Characteristics
APPLICATIONS INFORMATION
The MC145406 has been designed to meet the electrical
specifications of standards EIA-232-D/CCITT V.28 and as such,
August 31, 1994
471