SP206CT
更新时间:2024-09-18 02:17:11
品牌:SIPEX
描述:+5V High-Speed RS-232 Transceivers with 0.1uF Capacitors
SP206CT 概述
+5V High-Speed RS-232 Transceivers with 0.1uF Capacitors + 5V高速RS - 232收发器, 0.1μF的电容器 线路驱动器或接收器
SP206CT 规格参数
是否Rohs认证: | 不符合 | 生命周期: | Obsolete |
包装说明: | SOP, SOP24,.4 | Reach Compliance Code: | unknown |
风险等级: | 5.04 | 其他特性: | EXTERNAL CHARGE PUMP; TRISTATABLE RECEIVERS |
差分输出: | NO | 驱动器位数: | 4 |
输入特性: | SCHMITT TRIGGER | 接口集成电路类型: | LINE TRANSCEIVER |
接口标准: | EIA-232; V.28 | JESD-30 代码: | R-PDSO-G24 |
JESD-609代码: | e0 | 长度: | 15.395 mm |
湿度敏感等级: | 1 | 功能数量: | 3 |
端子数量: | 24 | 最高工作温度: | 70 °C |
最低工作温度: | 最小输出摆幅: | 14 V | |
输出特性: | 3-STATE | 最大输出低电流: | 0.0032 A |
输出极性: | INVERTED | 封装主体材料: | PLASTIC/EPOXY |
封装代码: | SOP | 封装等效代码: | SOP24,.4 |
封装形状: | RECTANGULAR | 封装形式: | SMALL OUTLINE |
峰值回流温度(摄氏度): | 225 | 电源: | 5 V |
认证状态: | Not Qualified | 最大接收延迟: | |
接收器位数: | 3 | 座面最大高度: | 2.649 mm |
子类别: | Line Driver or Receivers | 最大压摆率: | 10 mA |
标称供电电压: | 5 V | 表面贴装: | YES |
技术: | CMOS | 温度等级: | COMMERCIAL |
端子面层: | Tin/Lead (Sn/Pb) | 端子形式: | GULL WING |
端子节距: | 1.27 mm | 端子位置: | DUAL |
处于峰值回流温度下的最长时间: | 30 | 宽度: | 7.5 mm |
Base Number Matches: | 1 |
SP206CT 数据手册
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SP200/204/205/206/207/208/211/213
+5V High–Speed RS-232Transceivers with 0.1µF Capacitors
■ 0.1µF External Charge Pump Capacitors
■ 120kbps Data Rate
■ Standard SOIC and SSOP Packages
■ Multiple Drivers and Receivers
■ Single 5V Supply Operation
■ 1µA Shutdown Mode
■ WakeUp Feature in Shutdown Mode
■ Tri–State Receiver Outputs
■ Meets All RS-232 and V.28 Specifications
■ Improved Driver Output Capacity for Mouse
Applications
■ ±10kV ESD Protection*
DESCRIPTION…
The SP200 Series are multi–channel RS-232 line transceivers in a variety of configurations to
fit most communication needs. All models in this Series feature low–power CMOS construction
and Sipex patented (5,306,954) on-board charge pump circuitry to generate the ±10V RS-232
voltage levels, using 0.1µF charge pump capacitors to save board space and reduce circuit cost.
TheSP200,SP205,SP206,SP207B, SP211 andSP213modelsfeaturealow–powershutdown
mode, which reduces power supply drain to 1µA. A WakeUp function keeps the receivers active
in the shutdown mode.
Number of RS-232
No. of Receivers
No. of External
Model Drivers
Receivers
Active in Shutdown 0.1µF Capacitors Shutdown WakeUp TTL Tri–State
SP200
SP204
SP205
SP205B
SP206
SP206B
SP207
SP207B
SP208
SP211
SP211B
SP213
5
4
5
5
4
4
5
5
4
4
4
4
0
0
5
5
3
3
3
3
4
5
5
5
0
0
0
5
0
3
0
3
0
0
5
2
4
Yes
No
No
No
No
No
4
None
Yes
Yes
Yes
Yes
No
No
Yes
Yes
Yes
Yes
No
None
Yes
No
4
4
4
4
4
4
4
4
Yes
No
Yes
No
Yes
No
Yes
No
Yes
Yes
Yes
No
Yes
Yes
Yes
Yes
Yes
Table 1. Model Selection Table
*All driver outputs and receiver inputs characterized per MIL-STD-883C Method 3015.7
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
ABSOLUTE MAXIMUM RATINGS
These are stress ratings only and functional operation of the device
at these or any other above those indicated in the operation
sections of the specifications below is not implied. Exposure to
absolute maximum rating conditions for extended periods of time
may affect reliability.
VCC ............................................................................................ +6V
V+ ................................................................. (VCC – 0.3V) to +13.2V
V– ........................................................................................... 13.2V
Input Voltages
TIN ................................................................... –0.3V to (VCC +0.3V)
RIN ........................................................................................... ±20V
Output Voltages
T
OUT .......................................................... (V+, +0.3V) to (V–, –0.3V)
ROUT ................................................................. –0.3V to (VCC +0.3V)
Short Circuit Duration on TOUT ....................................... Continuous
Power Dissipation
Plastic DIP .......................................................................... 375mW
(derate 7mW/°C above +70°C)
Small Outline ...................................................................... 375mW
(derate 7mW/°C above +70°C)
SPECIFICATIONS
VCC at nominal ratings; 0.1µF charge pump capacitors; TMIN to TMAX, unless otherwise noted.
PARAMETER
MIN.
TYP.
MAX.
UNIT
CONDITIONS
TIN, EN, SD
TTL INPUTS
Logic Threshold
VIL
0.8
Volts
Volts
µA
VIH
2.0
Logic Pullup Current
Maximum Data Rate
15
200
TIN = 0V
CL = 2,500pF, RL = 3kΩ
120
kbps
TTL OUTPUTS
Compatibility
VOL
TTL/CMOS
0.05
0.4
Volts
Volts
µA
IOUT = 3.2mA; VCC = +5V
IOUT = –1.0mA
VOH
3.5
Leakage Current
±10
EN = VCC; 0V ≤ VOUT ≤ VCC
;
TA = +25°C
RS-232 OUTPUT
Output Voltage Swing
±5
±7
Volts
All transmitter outputs loaded
with 3kΩ to ground
Output Resistance
Output Short Circuit Current
300
Ohms
mA
VCC = 0V; VOUT = ±2V
Infinite duration
±25
RS-232 INPUT
Voltage Range
Voltage Threshold
LOW
HIGH
Hysteresis
Resistance
–15
0.8
+15
Volts
1.2
1.7
0.5
5
Volts
Volts
Volts
kΩ
VCC = 5V, TA = +25°C
VCC = 5V, TA = +25°C
VCC = +5V
2.4
1.0
7
0.2
3
±15V; TA = +25°C
DYNAMIC CHARACTERISTICS
Propagation Delay
Instantaneous Slew Rate
1.5
5
µs
V/µs
RS-232–to–TTL
CL = 50pF, RL = 3–7kΩ;
TA = +25°C
CL = 2,500pF, RL = 3kΩ;
measured from +3V to –3V
or –3V to +3V
30
Transition Region Slew Rate
V/µs
Output Enable Time
Output Disable Time
400
250
ns
ns
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
2
SPECIFICATIONS
VCC at nominal ratings; 0.1µF charge pump capacitors; TMIN to TMAX, unless otherwise noted.
PARAMETER
MIN.
TYP.
MAX.
UNIT
CONDITIONS
POWER REQUIREMENTS
VCC
SP200, SP205, SP207 and SP207B
4.75
5.00
5.00
5.25
5.50
Volts
Volts
All other parts
4.50
ICC
T = +25°C
4
20
1
10
10
mA
mA
µA
NAo load; V = ±10%
All transmittCeCrs RL = 3kΩ
TA = +25°C
Shutdown Current
ENVIRONMENTAL AND MECHANICAL
Operating Temperature
Commercial, –C
Extended, –E
Storage Temperature
Package
0
–40
–65
+70
+85
+125
°C
°C
°C
–A
–T
Shrink (SSOP) small outline
Wide (SOIC) small outline
Transmitter Output
RL=3kΩ, CL=5,000pF
Transmitter Output
RL=3kΩ, CL=2,500pF
Receiver Output
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
3
PINOUT
T3OUT
T1OUT
T2OUT
T2IN
T4OUT
T5IN
NC
T1OUT
T2OUT
T2IN
T3OUT
T4OUT
T4IN
20
19
18
17
16
15
14
13
12
11
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
1
2
T4 OUT
T3OUT
T1OUT
T2OUT
R2IN
R3 IN
R3OUT
T5IN
1
2
24
23
22
21
20
19
18
17
16
15
14
13
3
3
SD
T1IN
T3IN
4
SD
4
–
V
T1IN
T5OUT
T4IN
T3IN
GND
VCC
5
EN
5
–
GND
C2
C2
C1
6
R2OUT
T2IN
T5OUT
R4IN
6
+
+
–
VCC
C1
V
7
7
+
C1
–
+
V
8
T1IN
R4OUT
T4IN
8
+
–
–
V
C2
C2
9
R1OUT
R1IN
9
+
C1
10
T3IN
10
11
12
GND
R5OUT
R5IN
VCC
T
4 OUT
R3 IN
R3OUT
T5IN
T3 OUT
T1OUT
T2OUT
R1IN
T
4 OUT
T3 OUT
T1OUT
T2OUT
R1IN
T
4 OUT
1
2
24
1
24
23
22
21
20
19
18
17
16
15
14
13
1
2
24
23
22
21
20
19
18
17
16
15
14
13
T3OUT
T1OUT
T2OUT
R2IN
R2IN
R2OUT
SD
R2IN
23
22
21
20
19
18
17
16
15
14
13
2
3
R2OUT
SD
3
3
SD
4
4
4
EN
R1OUT
T2IN
EN
R1OUT
T2IN
EN
5
5
5
R2OUT
T2IN
T5OUT
R4IN
T4IN
T3IN
R3OUT
R3IN
T4IN
T3IN
R3OUT
R3IN
6
6
6
T1IN
T1IN
7
7
7
T1IN
R4OUT
T4IN
GND
GND
8
8
8
R1OUT
R1IN
VCC
VCC
9
9
9
+
+
–
–
+
+
–
–
V
T3IN
C1
V
C1
10
11
12
10
11
12
10
11
12
–
–
GND
R5OUT
R5IN
V
C2
V
C2
C2
+
+
VCC
C1
C2
C1
T3 OUT
T
4 OUT
T3 OUT
T1OUT
T2OUT
R2IN
T
4 OUT
T2 OUT
T1OUT
R2IN
T3 OUT
1
2
3
4
5
6
7
8
9
24
23
22
21
20
19
18
17
16
15
14
13
1
28
1
2
24
23
22
21
20
19
18
17
16
15
14
13
T1OUT
T2OUT
R1IN
R2IN
NC
R3IN
2
3
27
26
25
24
23
22
21
20
19
18
17
16
15
R2OUT
T5IN
T5IN
R3OUT
T4IN
3
SHUTDOWN (SD)
R2OUT
T1IN
4
4
R1OUT
T2IN
T5OUT
T4IN
R2OUT
T2IN
EN
T4OUT
T3IN
5
5
T5OUT
NC
R1OUT
R1IN
6
6
T1IN
T3IN
T1IN
T2IN
7
7
GND
R3OUT
R3IN
R1OUT
R1IN
T4IN
T3IN
R3OUT
R3IN
GND
R4OUT
R4IN
8
8
VCC
VCC
9
9
+
+
–
–
+
+
–
–
V
C1
V
GND
C1
10
11
12
10
11
12
13
14
10
11
12
–
–
V
C2
C2
VCC
V
C2
C2
+
+
+
–
–
+
C1
C1
V
C1
–
V
C2
C2
+
C1
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
4
PINOUT
T
3 OUT
T4 OUT
R3IN
1
2
28
27
26
25
24
23
22
21
20
19
18
17
16
15
T
3 OUT
T4 OUT
R3IN
1
2
28
27
26
25
24
23
22
21
20
19
18
17
16
15
T1OUT
T2OUT
R2IN
T1OUT
R3OUT
SHUTDOWN (SD)
EN
3
T2OUT
R2IN
R3OUT
SHUTDOWN (SD)
EN
3
4
4
R2OUT
T2IN
5
R2OUT
T2IN
5
R4IN
6
R4IN
6
T1IN
R4OUT
T4IN
7
T1IN
R4OUT
T4IN
7
R1OUT
R1IN
8
R1OUT
R1IN
8
T3IN
9
T3IN
9
GND
R5OUT
R5IN
10
11
12
13
14
GND
R5OUT
R5IN
10
11
12
13
14
VCC
VCC
+
+
–
–
V
C1
+
+
–
–
V
C1
–
C2
V
–
C2
V
+
C2
C1
+
C2
C1
T
3 OUT
T4 OUT
R3IN
1
2
28
27
26
25
24
23
22
21
20
19
18
17
16
15
T1OUT
T2OUT
R2IN
R3OUT
3
SHUTDOWN (SD)
4
R2OUT
T2IN
EN
5
R4IN
R4OUT
T4IN
6
T1IN
7
R1OUT
R1IN
8
T3IN
9
GND
R5OUT
R5IN
10
11
12
13
14
VCC
+
+
–
–
V
C1
–
C2
V
+
C2
C1
FEATURES…
ers active in the shutdown mode, unless dis-
abled by the EN pin. Models with a “B” suffix
are equipped with the WakeUp function.
The SP200 Series multi–channel RS-232 line
transceivers provide a variety of configurations
to fit most communication needs, especially
those applications where ±12V is not available.
All models in this Series feature low–power
CMOS construction and Sipex proprietary on-
board charge pump circuitry to generate the
±10V RS-232 voltage levels. The ability to use
0.1µFchargepumpcapacitorssavesboardspace
andreducescircuitcost.Differentmodelswithin
theSeriesprovidedifferentdriver/receivercom-
binations to match any application requirement.
Models in the Series are available in 28–pin SO
(wide) and SSOP (shrink) small outline pack-
ages. Devices can be specified for commercial
(0°C to +70°C) and industrial/extended (–40°C
to +85°C) operating temperatures.
THEORY OF OPERATION
Charge–Pump
The charge pump is a Sipex patented design
(5,306,954) and uses a unique approach com-
paredtoolderless–efficientdesigns.Thecharge
pump still requires four external capacitors, but
uses a four–phase voltage shifting technique to
The SP200, SP205, SP206, SP207B, SP211
and SP213 models feature a low–power shut-
down mode, which reduces power supply drain
to1µA. TheWakeUpfunctionkeepsthereceiv-
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
5
V
= +5V
CC
C
+5V
4
+
–
+
V
V
Storage Capacitor
Storage Capacitor
DD
+
–
+
–
C
C
2
1
–
SS
C
–5V
–5V
3
Figure 1. Charge Pump — Phase 1
attain symmetrical ±10V power supplies.
transferred in C1 produces –5V in the negative
terminal of C1, which is applied to the negative
side of capacitor C . Since C2+ is at +5V, the
voltage potential ac2ross C2 is l0V.
Figure 3a shows the waveform found on the
positive side of capcitor C , and Figure 3b
shows the negative side of ca2pcitor C2. There is
a free–running oscillator that controls the four
phases of the voltage shifting. A description of
each phase follows.
Phase 4
— V transfer — The fourth phase of the clock
connDeDcts the negative terminal of C2 to ground,
and transfers the generated l0V across C2 to C ,
theV storagecapacitor.Again,simultaneousl4y
with DthDis, the positive side of capacitor C is
switched to +5V and the negative side is c1on-
nected to ground, and the cycle begins again.
Phase 1
—VSS chargestorage—Duringthisphaseofthe
clock cycle, the positive side of capacitors C1
and C2 are initially charged to +5V. Cl+ is then
switched to ground and the charge in C1– is
transferred to C –. Since C + is connected to
+5V, the voltage2potential ac2ross capacitor C2 is
now 10V.
Since both V+ and V– are separately generated
from VCC; in a no–load condition V+ and V– will
be symmetrical. Older charge pump approaches
that generate V– from V+ will show a decrease in
the magnitude of V– compared to V+ due to the
inherent inefficiencies in the design.
Phase 2
— V transfer — Phase two of the clock con-
nectsSSthe negative terminal of C2 to the VSS
storage capacitor and the positive terminal of C2
to ground, and transfers the generated –l0V to
C3. Simultaneously, the positive side of capaci-
tor C 1 is switched to +5V and the negative side
is connected to ground.
The clock rate for the charge pump typically
operates at 15kHz. The external capacitors can
be as low as 0.1µF with a 16V breakdown
voltage rating.
The SP200 Series devices are made up of three
basic circuit blocks — 1) transmitter/driver, 2)
receiver and 3) the Sipex proprietary charge
Phase 3
— VDD charge storage — The third phase of the
clock is identical to the first phase — the charge
V
= +5V
CC
C
4
+
–
+
V
V
Storage Capacitor
Storage Capacitor
DD
+
–
+
–
C
C
2
1
–
SS
C
–10V
3
Figure 2. Charge Pump — Phase 2
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
6
+10V
a) C2+
GND
GND
b) C2–
–10V
Figure 3. Charge Pump Waveforms
pump. Each model within the Series incorpo-
rates variations of these circuits to achieve the
desired configuration and performance.
driver be left open, an internal 400kOhm pullup
resistor to VCC forces the input high, thus commit-
ting the output to a low state. The slew rate of the
transmitter output is internally limited to a maxi-
mumof30V/µsinordertomeettheEIAstandards
(EIA RS-232D 2.1.7, Paragraph 5). The transition
of the loaded output from high to low also meets
the monotonicity requirements of the standard.
Transmitter/Driver
The drivers are inverting transmitters, which ac-
cept either TTL or CMOS inputs and output the
RS-232 signals with an inverted sense relative to
the input logic levels. Typically, the RS-232 out-
put voltage swing is ±9V with no load, and ±5V
minimum with full load. The transmitter outputs
are protected against infinite short–circuits to
ground without degradation in reliability. The
drivers of the SP200, SP205, SP205B, SP206,
SP206B, SP207B, SP211, SP211B and SP213
can be tri–stated by using the SHUTDOWN
function.
Receivers
The receivers convert RS-232 input signals to
inverted TTL signals. Since the input is usually
fromatransmissionlinewherelongcablelengths
and system interference can degrade the signal,
the inputs have a typical hysteresis margin of
500mV. This ensures that the receiver is virtu-
ally immune to noisy transmission lines. Should
aninputbeleftunconnected,a5kOhmpulldown
resistor to ground will commit the output of the
receiver to a high state.
Inthe“poweroff”state, theoutputimpedancewill
remaingreaterthan300Ohms,againsatisfyingthe
RS-232 specifications. Should the input of the
V
= +5V
CC
C
4
+5V
+
–
+
V
V
Storage Capacitor
Storage Capacitor
DD
+
–
+
–
C
C
2
1
–
SS
C
–5V
–5V
3
Figure 4. Charge Pump — Phase 3
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
7
V
= +5V
CC
C
+10V
4
+
–
+
V
V
Storage Capacitor
Storage Capacitor
DD
+
–
+
–
C
C
2
1
–
SS
C
3
Figure 5. Charge Pump — Phase 4
SHUTDOWN MODE
SP213:
The SP200, SP205, SP205B, SP206, SP206B,
SP207B, SP211, SP211B and SP213 all feature
a control input which will disable the device and
reduce the power supply current to less than
10µA, making the parts ideal for battery–pow-
ered systems. In the “shutdown” mode the re-
ceivers and transmitters will both be tri–stated.
TheV+ outputofthechargepumpwilldischarge
to VCC, and the V– output will discharge to
ground. ProductswiththeWakeUpfunctioncan
enableordisablethereceiversduringshutdown.
• 0V must be applied to the SD pin
• ENABLE must be either 0V, +5.0V or not
connected
• the transmitter inputs must be either +5.0V
or not connected
• VCC must be +5V
• Receiver inputs must be >0V and <+5V
ENABLE
The SP205/B, SP206/B, SP207/B, SP211 and
SP213 all feature an enable input, which allows
the receiver outputs to be either tri–stated or
enabled. This can be especially useful when the
receiver is tied directly to a microprocessor data
bus. For the SP205/B, SP206/B, SP207/B and
SP211, enable is active low; that is, 0V applied
to the ENABLE pin will enable the receiver
outputs. For the SP213, enable is active high;
that is, +5V applied to the ENABLE pin will
enable the receiver outputs.
For complete shutdown to occur and the 10µA
power drain to be realized, the following condi-
tions must be met:
SP200, SP205/B, SP206/B, SP207B and SP211/B:
• +5V must be applied to the SD pin
• ENABLE must be either 0V, +5.0V or not
connected
• the transmitter inputs must be either +5.0V
or not connected
• VCC must be +5V
• Receiver inputs must be >0V and <+5V
WAKEUP FUNCTION
The SP205B, SP206B, SP207B, SP211B and
SP213 have a wake–up feature that keeps two or
more receivers in an enabled state when the
device is in the shutdown mode. The SP213 has
two receivers active (R4 and R5), while the
SP205B, SP207B and SP211B have all receiv-
ers active during shutdown. With only the re-
ceivers active during shutdown, the devices
draw 5–10µA of supply current.
SP213 Only
Power
Up/Down
Receiver
Outputs
SD EN SD
EN
1
0
0
1
1
0
1
0
1
1
1
0
0
Up
Up
Enable
Tri–state
Enable
0
1
Down
Down
0
Tri–state
Table 2. Wake–Up Truth Table
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
8
computer to power up the microprocessor and
the SP2XXB/SP213 drivers. After the supply
voltage to the SP2XXB/SP213 reaches +5.0V,
the SHUTDOWN pin can be disabled, taking
the SP2XXB/SP213 out of the shutdown mode.
A typical application of this function would be
where a modem is interfaced to a computer in a
power–down mode. The ring indicator signal
from the modem could be passed through an
active receiver in the SP2XXB/SP213 that is
itself in the shutdown mode. The ring indicator
signal would propagate through the SP2XXB/
SP213tothepowermanagementcircuitryofthe
All receivers that are active during shutdown
maintain 500mV (typ.) of hysteresis.
POWER UP WITH SD ACTIVE (Charge pump in shutdown mode)
t
0 (POWERUP)
+5V
DATA VALID
R
OUT
0V
t
WAIT
ENABLE
SD
DISABLE
POWER UP WITH SD DISABLED (Charge pump in active mode)
t
0 (POWERUP)
+5V
DATA VALID
R
OUT
0V
t
ENABLE
ENABLE
SD
DISABLE
EXERCISING WAKE–UP FEATURE
t
0 (POWERUP)
+5V
DATA VALID
DATA VALID
DATA VALID
R
OUT
0V
t
t
t
ENABLE
ENABLE
ENABLE
SD
DISABLE
ENABLE
DISABLE
t
WAIT
V
= +5V ±10%; T = 25°C
A
CC
t
t
= 2ms typical, 3ms maximum
WAIT
ENABLE
= 1ms typical, 2ms maximum
Figure 6. Wake–Up Timing
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
9
Specification
RS–232D
RS–423A
RS–422
RS–485
RS–562
Mode of Operation
Single–Ended
Single–Ended
Differential
Differential
Single–Ended
No. of Drivers and Receivers
Allowed on One Line
1 Driver
1 Receiver
1 Driver
10 Receivers
1 Driver
10 Receivers
32 Drivers
32 Receivers
1 Driver
1 Receiver
Maximum Cable Length
50 feet
4,000 feet
4,000 feet
4,000 feet
C ≤ 2,500pF @ <20kbps;
C ≤1,000pF @ >20kbps
64kbps
Maximum Data Rate
20kbps
100kbps
10Mbps
10Mbps
Driver output Maximum Voltage
±25V
±6V
–0.25V to +6V
–7V to +12V
–3.7V to +13.2V
Driver Output Signal Level
Loaded
Unloaded
±5V
±15V
±3.6V
±6V
±2V
±5V
±1.5V
±5V
±3.7V
±13.2V
Driver Load Impedance
3 – 7kohm
450 ohm
100 ohm
54 ohm
3–7kohm
Max. Driver Output Current
(High Impedance State)
Power On
±100µA
±100µA
Power Off
V
MAX
/300
100µA
±100µA
Slew Rate
30V/µs max.
±15V
Controls Provided
±12V
30V/µs max.
±15V
Receiver Input Voltage Range
Receiver Input Sensitivity
Receiver Input Resistance
–7V to +7V
±200mV
–7V to +12V
±200mV
±3V
±200mV
±3V
3–7kohm
4kohm min.
4kohm min.
12kohm min.
3–7kohm
Table 3. EIA Standard Definitions
EIA STANDARDS
to meet both the EIA protocol standards, and the
needs of the industry.
The Electronic Industry Association (EIA) de-
veloped several standards of data transmission
which are revised and updated in order to meet
the requirements of the industry. In data pro-
cessing, there are two basic means of communi-
cating between systems and components. The
RS-232 standard was first introduced in 1962
and, since that time, has become an industry
standard.
±10kV ESD PROTECTION
The SP200 Series is equipped with Sipex-pro-
prietary ESD protection circuitry on all RS-232
inputs and outputs. The SP200 Series has been
characterized using MIL-STD-883C Method
3015.7 Human Body Model. Each device in the
family can withstand up to ±10kV of static
discharge on all RS-232 inputs and outputs. All
other pins of each device will maintain ≥ ±2kV
of ESD protection.
The RS-232 is a relatively slow data exchange
protocol, with a maximum baud rate of only
20kbaud, which can be transmitted over a maxi-
mum copper wire cable length of 50 feet. The
SP200 through SP213 Series of data communi-
cations interface products have been designed
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
10
TYPICAL APPLICATION CIRCUITS
+5V INPUT
+5V INPUT
0.1µF
6.3V
7
0.1µF
6.3V
6
8
+
0.1µF
6.3V
7
C1
+
+
0.1µF
6.3V
VCC
9
C1
+
+
+
0.1µF
6.3V
VCC
V +
V –
8
+
+
0.1µF
6.3V
V +
V –
10
11
0.1µF
16V
+
C1
C2
–
+
9
0.1µF
16V
+
C1
C2
–
+
13
12
10
0.1µF
16V
0.1µF
16V
SP200
SP204
12
5
11
C2
–
C2
–
400kOHM
400kOHM
2
4
3
1
T1
T2
T3
T4
T5
T1 IN
T1 OUT
T1
T2
T3
T4
T1 IN
T1 OUT
T2 OUT
T3 OUT
T4 OUT
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
3
4
14
15
19
18
2
T2 IN
T3 IN
T4 IN
T5 IN
NC
T2 OUT
T2 IN
T3 IN
T4 IN
1
16
15
13
14
T3 OUT
T4 OUT
T5 OUT
SD
20
16
17
6
5
GND
GND
+5V INPUT
+5V INPUT
12
VCC
12
VCC
0.1µF
6.3V
0.1µF
6.3V
SP205B
SP205
400kOHM
400kOHM
8
3
8
7
3
T1
T1 IN
T2 IN
T3 IN
T4 IN
T5 IN
T
T
T
T
T
1 OUT
T1
T1 IN
T
T
T
T
T
1 OUT
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
4
7
4
T2
T3
T4
T5
2 OUT
3 OUT
4 OUT
5 OUT
T2 IN
T3 IN
T4 IN
T5 IN
T2
T3
T4
T5
2 OUT
3 OUT
4 OUT
5 OUT
2
15
16
22
2
15
1
1
16
22
19
19
9
6
10
5
9
6
10
5
R1
R2
R3
R
1 OUT*
R1 IN*
R2 IN*
R3 IN*
R1
R2
R3
R
R
1 OUT
2 OUT
R1 IN
R2 IN
R3 IN
5kOHM
5kOHM
5kOHM
5kOHM
5kOHM
5kOHM
5kOHM
5kOHM
5kOHM
5kOHM
R2 OUT*
R3 OUT*
23
24
23
24
R3 OUT
R4 OUT
17
18
13
21
17
18
13
21
R4
R5
R4 OUT*
R4IN*
R5 IN*
SD
R4
R5
R4IN
R5 IN
SD
14
20
14
20
R5 OUT*
EN
R5 OUT
EN
11
GND
*Receivers active during shutdown
11
GND
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
11
TYPICAL APPLICATION CIRCUITS
+5V INPUT
+5V INPUT
0.1µF
6.3V
9
0.1µF
6.3V
9
10
+
10
0.1µF
6.3V
+
0.1µF
6.3V
C1
+
C1
+
VCC
11
15
VCC
+
+
11
15
0.1µF
6.3V
+
+
0.1µF
6.3V
V +
V –
V +
V –
12
13
12
13
0.1µF
16V
+
C1
C2
–
+
0.1µF
16V
+
C1
C2
–
+
0.1µF
16V
0.1µF
16V
SP206
SP206B
400kOHM
400kOHM
400kOHM
400kOHM
14
14
C2
–
C2
–
400kOHM
7
6
2
7
6
2
T1
T2
T3
T4
T1 IN
T1 OUT
T2 OUT
T3 OUT
T4 OUT
T1
T2
T3
T4
T1 IN
T1 OUT
T2 OUT
T3 OUT
T4 OUT
400kOHM
400kOHM
400kOHM
3
3
T2 IN
T3 IN
T4 IN
T2 IN
T3 IN
T4 IN
1
18
19
1
18
19
24
24
5
4
5
4
R1
R2
R3
R1 OUT
R2 OUT
R1 IN
R2 IN
R1
R1 OUT*
R2 OUT*
R1 IN*
R2 IN*
5kOHM
5kOHM
5kOHM
5kOHM
5kOHM
5kOHM
22
23
22
23
R2
R3
17
20
16
21
17
20
16
21
R3 OUT
EN
R3 IN
SD
R3 OUT*
EN
R3 IN*
SD
8
8
*Receivers active during shutdown
GND
GND
+5V INPUT
+5V INPUT
0.1µF
6.3V
11
0.1µF
6.3V
9
12
+
0.1µF
6.3V
10
C1 +
+
0.1µF
6.3V
C1
+
VCC
13
+
+
0.1µF
6.3V
VCC
11
V +
+
+
0.1µF
6.3V
V +
14
15
0.1µF
16V
+
C1
C2
–
+
12
13
0.1µF
16V
+
C1
C2
–
+
17
15
V –
V –
0.1µF
16V
SP207B
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
0.1µF
16V
SP207
16
C2
–
14
C2
–
400kOHM
7
6
2
T1
T2
T3
T4
T5
T1 IN
T1 OUT
T2 OUT
T3 OUT
T4 OUT
7
6
2
T1
T2
T3
T4
T5
T1 IN
T1 OUT
T2 OUT
T3 OUT
T4 OUT
T5 OUT
400kOHM
400kOHM
400kOHM
400kOHM
3
T2 IN
T3 IN
T4 IN
T5 IN
3
T2 IN
T3 IN
T4 IN
T5 IN
1
20
21
1
18
19
21
28
24
20
23
9
26
8
T5 OUT
R1 IN*
R1
R
1 OUT*
5
22
17
4
R1
R2
R3
R1 OUT
R2 OUT
R3 OUT
R1 IN
R2 IN
R3 IN
5kOHM
5kOHM
5kOHM
5
4
R2
R3
R2 OUT*
R2 IN*
5kOHM
5kOHM
5kOHM
23
16
19
24
18
25
R3 OUT*
EN
R3 IN*
SD
10
GND
*Receivers active during shutdown
8
The SP207B is offered in a 28–pin SOIC or 28–pin SSOP package.
GND
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
12
TYPICAL APPLICATION CIRCUITS
+5V INPUT
+5V INPUT
0.1µF
6.3V
9
0.1µF
6.3V
11
VCC
10
+
0.1µF
6.3V
12
+
0.1µF
6.3V
C1
+
C1
+
VCC
11
15
+
+
0.1µF
6.3V
13
17
+
+
V +
V –
0.1µF
6.3V
V +
V –
12
13
0.1µF
16V
+
14
15
C1
C2
–
+
0.1µF
16V
+
C1
C2
–
+
0.1µF
16V
0.1µF
16V
SP208
SP211
14
16
C2
–
C2
–
400kOHM
400kOHM
5
18
19
21
2
7
6
2
T1
T2
T3
T4
T1 IN
T1 OUT
T1
T2
T3
T4
T1 IN
T1 OUT
T2 OUT
T3 OUT
T4 OUT
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
400kOHM
1
3
T2 IN
T3 IN
T4 IN
T2 OUT
T2 IN
T3 IN
T4 IN
24
20
1
T3 OUT
T4 OUT
20
21
28
6
4
7
R1
R2
R3
R1 OUT
R2 OUT
R3 OUT
R1 IN
R2 IN
R3 IN
8
5
9
R1
R2
R3
R1 OUT
R2 OUT
R3 OUT
R1 IN
R2 IN
R3 IN
5kOHM
5kOHM
5kOHM
5kOHM
3
5kOHM
5kOHM
5kOHM
5kOHM
5kOHM
4
22
23
26
27
17
16
R4
R4 OUT
R4 IN
22
23
18
25
R4
R5
R4 OUT
R4IN
R5 IN
SD
19
24
8
R5 OUT
EN
GND
10
GND
+5V INPUT
0.1µF
6.3V
11
VCC
+5V INPUT
12
+
0.1µF
6.3V
0.1µF
6.3V
11
VCC
C1
+
13
+
12
C1
0.1µF
6.3V
+
0.1µF
6.3V
V +
+
13
+
+
0.1µF
6.3V
14
15
V +
0.1µF
16V
+
C1
C2
–
+
14
15
17
0.1µF
16V
+
C1
C2
–
+
V –
17
V –
+
0.1µF
16V
SP211B
400kOHM
400kOHM
400kOHM
400kOHM
0.1µF
16V
16
SP213
C2
–
16
C2
–
400kOHM
7
6
2
T1
T2
T3
T4
T1 IN
T1 OUT
T2 OUT
7
6
2
T1
T2
T3
T4
T1 IN
T1 OUT
T2 OUT
400kOHM
400kOHM
400kOHM
3
T2 IN
T3 IN
T4 IN
3
T2 IN
T3 IN
T4 IN
1
20
21
T
3 OUT
1
20
21
T
3 OUT
28
T4 OUT
28
T4 OUT
8
5
9
R1
R1 OUT*
R2 OUT*
R3 OUT*
R1 IN*
R2 IN*
R3 IN*
8
5
9
R1
R2
R3
R1 OUT
R2 OUT
R3 OUT
R1 IN
R2 IN
R3 IN
5kOHM
4
R2
R3
5kOHM
4
5kOHM
26
27
5kOHM
5kOHM
5kOHM
5kOHM
26
27
5kOHM
5kOHM
5kOHM
22
23
R4
R5
R4 OUT*
R4IN*
R5 IN*
SD
22
23
R4
R5
R4 OUT*
R4IN*
R5 IN*
SD
19
24
18
25
R5 OUT*
EN
19
24
18
25
R5 OUT*
EN
10
GND
*Receivers active during shutdown
10
*Receivers active during shutdown
GND
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
13
ORDERING INFORMATION
RS-232 Transceivers:
Model .......... Drivers ............... Receivers..................... Temperature Range ................. Package Type
SP207CA.......... 5............................. 3 ................................ 0°C to +70°C.............................. 24–pin SSOP
SP207CP .......... 5............................. 3 ................................ 0°C to +70°C...................... 24–pin Plastic DIP
SP207CT .......... 5............................. 3 ................................ 0°C to +70°C............................... 24–pin SOIC
SP207EA .......... 5............................. 3 ............................ –40°C to +85°C.............................. 24–pin SSOP
SP207EP .......... 5............................. 3 ............................ –40°C to +85°C...................... 24–pin Plastic DIP
SP207ET .......... 5............................. 3 ............................ –40°C to +85°C............................... 24–pin SOIC
SP208CA.......... 4............................. 4 ................................ 0°C to +70°C.............................. 24–pin SSOP
SP208CP .......... 4............................. 4 ................................ 0°C to +70°C...................... 24–pin Plastic DIP
SP208CT .......... 4............................. 4 ................................ 0°C to +70°C............................... 24–pin SOIC
SP208EA .......... 4............................. 4 ............................ –40°C to +85°C.............................. 24–pin SSOP
SP208EP .......... 4............................. 4 ............................ –40°C to +85°C...................... 24–pin Plastic DIP
SP208ET .......... 4............................. 4 ............................ –40°C to +85°C............................... 24–pin SOIC
RS-232 Transmitters:
Model .......... Drivers ............... Receivers..................... Temperature Range ................. Package Type
SP204CP .......... 4............................. 0 ................................ 0°C to +70°C...................... 16–pin Plastic DIP
SP204CT .......... 4............................. 0 ................................ 0°C to +70°C............................... 16–pin SOIC
SP204EP .......... 4............................. 0 ............................ –40°C to +85°C...................... 16–pin Plastic DIP
SP204ET .......... 4............................. 0 ............................ –40°C to +85°C............................... 16–pin SOIC
RS-232 Transmitters with Low–Power Shutdown:
Model .......... Drivers ............... Receivers..................... Temperature Range ................. Package Type
SP200CP .......... 5............................. 0 ................................ 0°C to +70°C...................... 20–pin Plastic DIP
SP200CT .......... 5............................. 0 ................................ 0°C to +70°C............................... 20–pin SOIC
SP200EP .......... 5............................. 0 ............................ –40°C to +85°C...................... 20–pin Plastic DIP
SP200ET .......... 5............................. 0 ............................ –40°C to +85°C............................... 20–pin SOIC
RS-232 Transceivers with Low–Power Shutdown and Tri–state Enable:
Model .......... Drivers ............... Receivers..................... Temperature Range ................. Package Type
SP205CP .......... 5............................. 5 ................................ 0°C to +70°C... 24–pin Plastic Double–Width DIP
SP205EP .......... 5............................. 5 ............................ –40°C to +85°C... 24–pin Plastic Double–Width DIP
SP206CA.......... 4............................. 3 ................................ 0°C to +70°C.............................. 24–pin SSOP
SP206CP .......... 4............................. 3 ................................ 0°C to +70°C...................... 24–pin Plastic DIP
SP206CT .......... 4............................. 3 ................................ 0°C to +70°C............................... 24–pin SOIC
SP206EA .......... 4............................. 3 ............................ –40°C to +85°C.............................. 24–pin SSOP
SP206EP .......... 4............................. 3 ............................ –40°C to +85°C...................... 24–pin Plastic DIP
SP206ET .......... 4............................. 3 ............................ –40°C to +85°C............................... 24–pin SOIC
SP211CA.......... 4............................. 5 ................................ 0°C to +70°C.............................. 28–pin SSOP
SP211CT .......... 4............................. 5 ................................ 0°C to +70°C............................... 28–pin SOIC
SP211EA .......... 4............................. 5 ............................ –40°C to +85°C.............................. 28–pin SSOP
SP211ET .......... 4............................. 5 ............................ –40°C to +85°C............................... 28–pin SOIC
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
14
ORDERING INFORMATION
RS-232 Transceivers with Low–Power Shutdown, Tri–state Enable, and
Wake–Up Function:
Model .......... Drivers ............... Receivers..................... Temperature Range ................. Package Type
SP205BCP ....... 5 ....... 5, with 5 active in Shutdown .......... 0°C to +70°C.... 24–pin Plastic Double–WidthDIP
SP205BEP........ 5 ....... 5, with 5 active in Shutdown ...... –40°C to +85°C... 24–pin Plastic Double–Width DIP
SP206BCA ....... 4 ....... 3, with 3 active in Shutdown .......... 0°C to +70°C.............................. 24–pin SSOP
SP206BCP ....... 4 ....... 3, with 3 active in Shutdown .......... 0°C to +70°C...................... 24–pin Plastic DIP
SP206BCT........ 4 ....... 3, with 3 active in Shutdown .......... 0°C to +70°C............................... 24–pin SOIC
SP206BEA........ 4 ....... 3, with 3 active in Shutdown ...... –40°C to +85°C.............................. 24–pin SSOP
SP206BET ........ 4 ....... 3, with 3 active in Shutdown ...... –40°C to +85°C............................... 24–pin SOIC
SP207BCA ....... 5 ....... 3, with 3 active in Shutdown .......... 0°C to +70°C.............................. 28–pin SSOP
SP207BCT........ 5 ....... 3, with 3 active in Shutdown .......... 0°C to +70°C............................... 28–pin SOIC
SP207BEA........ 5 ....... 3, with 3 active in Shutdown ...... –40°C to +85°C.............................. 28–pin SSOP
SP207BET ........ 5 ....... 3, with 3 active in Shutdown ...... –40°C to +85°C............................... 28–pin SOIC
SP211BCA ....... 4 ....... 5, with 5 active in Shutdown .......... 0°C to +70°C.............................. 28–pin SSOP
SP211BCT........ 4 ....... 5, with 5 active in Shutdown .......... 0°C to +70°C............................... 28–pin SOIC
SP211BEA........ 4 ....... 5, with 5 active in Shutdown ...... –40°C to +85°C.............................. 28–pin SSOP
SP211BET ........ 4 ....... 5, with 5 active in Shutdown ...... –40°C to +85°C............................... 28–pin SOIC
SP213CA .......... 4 ....... 5, with 2 active in Shutdown .......... 0°C to +70°C.............................. 28–pin SSOP
SP213CT .......... 4 ....... 5, with 2 active in Shutdown .......... 0°C to +70°C............................... 28–pin SOIC
SP213EA .......... 4 ....... 5, with 2 active in Shutdown ...... –40°C to +85°C.............................. 28–pin SSOP
SP213ET .......... 4 ....... 5, with 2 active in Shutdown ...... –40°C to +85°C............................... 28–pin SOIC
Corporation
SIGNALPROCESSINGEXCELLENCE
Sipex Corporation
Headquarters and
Sales Office
22 Linnell Circle
Billerica, MA 01821
TEL: (978) 667-8700
FAX: (978) 670-9001
e-mail: sales@sipex.com
Sales Office
233 South Hillview Drive
Milpitas, CA 95035
TEL: (408) 934-7500
FAX: (408) 935-7600
Sipex Corporation reserves the right to make changes to any products described herein. Sipex does not assume any liability arising out of the
application or use of any product or circuit described hereing; neither does it convey any license under its patent rights nor the rights of others.
REV: A DATE:12/03/2003
+5V High-Speed RS232 Transceivers
© Copyright 2000 Sipex Corporation
15
SP206CT 相关器件
型号 | 制造商 | 描述 | 价格 | 文档 |
SP206CT-L | SIPEX | Line Transceiver, 3 Func, 4 Driver, 3 Rcvr, CMOS, PDSO24, LEAD FREE, SOIC-24 | 获取价格 | |
SP206CT-L/TR | EXAR | Line Transceiver, 3 Func, 4 Driver, 3 Rcvr, CMOS, PDSO24, LEAD FREE, MS-013AD, SOIC-24 | 获取价格 | |
SP206CT-L/TR | SIPEX | Line Transceiver, 3 Func, 4 Driver, 3 Rcvr, CMOS, PDSO24, LEAD FREE, SOIC-24 | 获取价格 | |
SP206CT/TR | SIPEX | +5V High-Speed RS-232 Transceivers with 0.1mF Capacitors | 获取价格 | |
SP206EA | SIPEX | +5V High-Speed RS-232 Transceivers with 0.1uF Capacitors | 获取价格 | |
SP206EA-L | SIPEX | 暂无描述 | 获取价格 | |
SP206EA-L/TR | EXAR | Line Transceiver, 3 Func, 4 Driver, 3 Rcvr, CMOS, PDSO24, LEAD FREE, MO-150AG, SSOP-24 | 获取价格 | |
SP206EA/TR | SIPEX | +5V High-Speed RS-232 Transceivers with 0.1mF Capacitors | 获取价格 | |
SP206EP | SIPEX | +5V High-Speed RS-232 Transceivers with 0.1uF Capacitors | 获取价格 | |
SP206EP-L | SIPEX | Line Transceiver, 3 Func, 4 Driver, 3 Rcvr, CMOS, PDIP24, LEAD FREE, PLASTIC, DIP-24 | 获取价格 |
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