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(R)
SP232A/233A/310A/312A Enhanced RS-232 Line Drivers/Receivers
FEATURES
C1+
1
16
VCC
Operates from Single +5V Power Supply V+ 2 15 GND Meets All RS-232F and ITU V.28 C1- 3 14 T1OUT Specifications C2+ 4 13 R1IN Operates with 0.1F to 1F Capacitors C2- 5 12 R1OUT High Data Rate - 120Kbps Under Load V- 6 11 T1IN Low Power CMOS - 3mA Operation (SP232A) T2OUT 7 10 T2IN No External Capacitors Required (SP233A) R2IN 8 9 R2OUT Low Power Shutdown (SP310A,SP312A) Enhanced ESD Protection (2kV Human Body Model) Now Available in Lead Free Packaging
The SP232A/233A/310A/312A devices are a family of line driver and receiver pairs that meet the specifications of RS-232 and V.28 serial protocols. These devices are pin-to-pin compatible with popular industry standards. As with the initial versions, the SP232A/233A/310A/312A devices feature at least 120Kbps data rate under load, 0.1F charge pump capacitors, and overall ruggedness for commercial applications. This family also features Sipex's BiCMOS design allowing low power operation without sacrificing performance. The series is available in plastic DIP and SOIC packages operating over the commercial and industrial temperature ranges.
SELECTION TABLE
Number of RS232 Model Drivers Receivers SP232A 2 2 SP233A SP310A SP312A 2 2 2 2 2 2 No. of Receivers No. of External Active in Shutdown 0.1F Capacitors N//A 4 N/A 0 2 0 4 4 Shutdown WakeUp TTL Tri-State No No No No Yes Yes No No Yes No Yes Yes
SP232A
DESCRIPTION
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
1
ABSOLUTE MAXIMUM RATINGS
This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operation sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods of time may affect reliability. Vcc ................................................................................................................................................................. +6V V+ .................................................................................................................... (Vcc-0.3V) to +11.0V V- ............................................................................................................................................................ -11.0V Input Voltages TIN ......................................................................................................................... -0.3 to (Vcc +0.3V) RIN ............................................................................................................................................................ 30V Output Voltages TOUT .................................................................................................... (V+, +0.3V) to (V-, -0.3V) ROUT ................................................................................................................ -0.3V to (Vcc +0.3V) Short Circuit Duration TOUT ......................................................................................................................................... Continuous Plastic DIP .......................................................................... 375mW (derate 7mW/C above +70C) Small Outline ...................................................................... 375mW (derate 7mW/C above +70C)
ELECTRICAL CHARACTERISTICS
VCC=+5V10%; 0.1F charge pump capacitors; TMIN to TMAX unless otherwise noted.
PARAMETERS TTL INPUT Logic Threshold LOW HIGH Logic Pull-Up Current TTL OUTPUT TTL/CMOS Output Voltage, Low Voltage, High Leakage Current; TA = +25 RS-232 OUTPUT Output Voltage Swing
MIN.
TYP.
MAX.
UNITS
CONDITIONS
0.8 2.0 15 200
Volts Volts A
TIN ; EN, SD TIN ; EN, SD TIN = ZeroV IOUT = 3.2mA; Vcc = +5V IOUT = -1.0mA EN = VCC, ZeroVVOUT VCC SP310A and SP312A only All transmitter outputs loaded with 3k to Ground VCC = ZeroV; V = 2V OUT Infinite duration CL = 2500pF, RL= 3k
0.4 3.5 0.05 10
Volts Volts A
5
6
Volts Ohms mA Kbps +30 Volts Volts Volts Volts k s s V/s V/s ns ns
Output Resistance 300 Output Short Circuit Current Maximum Data Rate 120 RS-232 INPUT Voltage Range -30 Voltage Threshold LOW 0.8 HIGH Hysteresis 0.2 Resistance 3 DYNAMIC CHARACTERISTICS Driver Propagation Delay Receiver Propagation Delay Instantaneous Slew Rate Transition Region Slew Rate Output Enable Time Output Disable Time POWER REQUIREMENTS VCC Power Supply Current SP232A SP233A, SP310A, SP312A VCC Supply Current,Loaded SP232A SP233A, SP310A, SP312A Shutdown Supply Current SP310A,SP312A
18 240
1.2 1.7 0.5 5 1.5 0.1 10 400 250
2.4 1.0 7 3.0 1.0 30
VCC = 5V, TA = +25C VCC = 5V, TA = +25C VCC = 5V, TA = +25C TA = +25C, -15V VIN +15V TTL to RS-232; CL = 50pF RS-232 to TTL CL = 10pF, RL= 3-7k; TA =+25C CL = 2500pF, RL= 3k; measured from +3V to -3V or -3V to +3V SP310A and SP312A only SP310A and SP312A only
3 10 15 25 1
5 15
mA mA mA mA
No load, TA= +25C; VCC = 5V No load, TA= +25C; VCC = 5V All transmitters RL = 3k; TA = +25C All transmitters RL = 3k; TA = +25C VCC = 5V, TA = +25C
10
A
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
2
Not 100% tested.
-11 -10
10 12
PERFORMANCE CURVES
9.0 8.5
30 25 20
ICC (mA)
VCC = 4V
-9
V- Voltage (Volts)
-8 -7 -6 -5 -4 -3
VCC = 6V
V+ (Volts)
8 6
VCC = 6V VCC = 5V
VCC = 6V
VOH (Volts)
8.0 7.5 7.0 6.5 6.0 5.5 5.0 4.5 4.75 5.0 VCC (Volts) 5.25 5.5
Load current = 0mA TA = 25C
VCC = 5V
15 VCC = 5V 10 VCC = 4V 5 VCC = 3V 0 -55
VCC = 4V
4 2 0
0
2
4
6
8
10
12
14
0
5
10
15
20
25
30
35
40
Load Current (mA)
-40
0
25
70
85
125
Load Current (mA)
Temperature (C)
PINOUTS
C1+ V+ C1C2+ C2VT2OUT R2IN
1 2 3
16 VCC 15 GND 14 T1OUT
T2IN T1IN R1OUT R1IN T1OUT GND VCC V+ DNC GND
1 2
20 19
R2OUT R2IN T2OUT Conn to 10 Conn to 11 Conn to 12 C1- DNC C1+ DNC Conn to 15 Conn to 16
SP233ACT/AET
3 4 5 6 7 8 9
18 17 16 15 14 13 12 11
SP232A
4 5 6 7 8
13 R1IN 12 R1OUT 11 T1IN 10 T2IN 9
R2OUT
Conn to 17 10
20-PIN SOIC See Figure 2 for Pin Connections
T 2IN T1 IN R1 OUT R1 IN T1 OUT GND VCC C1 + GND C2 -
1 2 3 4 5 6 7 8 9 10
20 19 18 17 16 15 14 13 12 11
20-PIN PLASTIC DIP
R2 OUT R2 IN T2 OUT VC2 C 2+ V+ C1 VC2 +
NC * C1+ V+ C1C2+ C2VT2OUT R2IN
1 2 3 4 5 6 7 8 9
18 17 16 15 14 13 12 11 10
ON/OFF VCC GND T1OUT R1IN R1OUT T1IN T2IN R2OUT
EN * C1+ V+ C1C2+ C2VT2OUT R2IN
1 2 3 4
18 17 16 15
SHUTDOWN VCC GND T1OUT R1IN R1OUT T1IN T2IN R2OUT
SP233ACP/AEP
SP310A
SP312A
5 6 7 8 9
14 13 12 11 10
* N.C. for SP310E_A, EN for SP312E_A
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
3
FEATURES... The SP232A/233A/310A/312A devices are a family of line driver and receiver pairs that meet the specifications of RS-232 and V.28 serial protocols. The ESD tolerance has been improved on these devices to over 2KV for the Human Body Model. These devices are pin-topin compatible with popular industry standards. The SP232A/233A/310A/312A devices feature10V/s slew rate, 120Kbps data rate under load, 0.1F charge pump capacitors, overall ruggedness for commercial applications, and increased drive current for longer and more flexible cable configurations. This family also features Sipex's BiCMOS design allowing low power operation without sacrificing performance. The SP232A/233A/310A/312A devices have internal charge pump voltage converters which allow them to operate from a single +5V supply. The charge pumps will operate with polarized or non-polarized capacitors ranging from 0.1 to 1F and will generate the 6V needed for the RS232 output levels. Both meet all EIA RS-232F and ITU V.28 specifications.
The SP310A provides identical features as the SP232A with the addition of a single control line which simultaneously shuts down the internal DC/DC converter and puts all transmitter and receiver outputs into a high impedance state. The SP312A is identical to the SP310A with separate tri-state and shutdown control lines. THEORY OF OPERATION The SP232A, SP233A, SP310A and SP312A devices are made up of three basic circuit blocks - 1) a driver/transmitter, 2) a receiver and 3) a charge pump. Each block is described below. Driver/Transmitter The drivers are inverting transmitters, which accept TTL or CMOS inputs and output the RS-232 signals with an inverted sense relative to the input logic levels. Typically the RS-232output voltage swing is 6V. Even under worst case loading conditions of 3kOhms and 2500pF, the output is guaranteed to be 5V, which is consistent with the RS-232 standard specifications. The transmitter outputs are protected against infinite short-circuits to ground without degradation in reliability.
+5V INPUT
10 F 6.3V
+
1 0.1 F + 6.3V 3 4
16
C+
1
V
CC
V+
0.1 F 6.3V 2+
C 1C+
2
*
Charge Pump
V6
0.1 F + 10V 5
+ 0.1 F
10V
C 2400k
TTL/CMOS OUTPUTS TTL/CMOS INPUTS
T1 IN
11
T1
400k
14
T 1OUT
T2 IN
10
T2
R 1
5k
7
T 2OUT
R 1 OUT
R 1 IN
R 2 OUT
9 SP232A
R 2
5k
8
R 2 IN
GND 15
*The negative terminal of the V+ storage capacitor can be tied to either VCC or GND. Connecting the capacitor to VCC (+5V) is recommended.
Figure 1. Typical Circuit using the SP232A.
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
RS-232 INPUTS
12
13
RS-232 OUTPUTS
(c) Copyright 2005 Sipex Corporation
4
+5V INPUT
+5V INPUT
7
TTL/CMOS OUTPUTS TTL/CMOS INPUTS
7
TTL/CMOS OUTPUTS TTL/CMOS INPUTS
V CC
RS-232 OUTPUTS
V CC
T1 IN
2
T1 IN
2
400k
T1 T2
5
T 1OUT
400k
T1 T2
5
T 1OUT
T2 IN
1
400k
18
T 2OUT
T2 IN
1
400k
18
T 2OUT
RS-232 INPUTS
R 1 OUT
R 1 IN
R 1 OUT
R1
5k
R 1 IN
5k R 2 OUT
20 8 C+ 1 13 14
R2
5k C 1V+
SP233ACP
2
19
R 2 IN
R 2 OUT
20 13 C + 1 14 C 18 10 17
R2
5k
2
19
R 2 IN
Do not make connection to these pins
C + 11 C 2 + 15 C2 C2 10 16
Connect on PCB Pin 11 to Pin 15 Pin 10 to Pin 16 Pin 12 to Pin 17 Both Pins 6 and 9 to GND
Do not make connection to these pins
C + 12 C 2 + 15
Connect on PCB Pin 12 to Pin 15 Pin 11 to Pin 16 Pin 10 to Pin 17 Both Pins 6 and 9 to GND
V+ VV-
12 V17 V-
GND
6
GND
9
SP233ACT GND GND
6 9
C2 C2 -
11 16
Figure 2. Typical Circuits using the SP233ACP and SP233ACT
The instantaneous slew rate of the transmitter output is internally limited to a maximum of 30V/ s in order to meet the standards [EIA RS-232-F ]. The transition region slew rate of these enhanced products is typically 10V/s. The smooth transition of the loaded output from VOL to VOH clearly meets the monotonicity requirements of the standard [EIA RS-232-F]. Receivers The receivers convert RS-232 input signals to inverted TTL signals. Since the input is usually from a transmission line, where long cable lengths and system interference can degrade the signal, the
+5V INPUT
10 F 6.3V
inputs have a typical hysteresis margin of 500mV. This ensures that the receiver is virtually immune to noisy transmission lines. The input thresholds are 0.8V minimum and 2.4V maximum, again well within the 3V RS-232 requirements. The receiver inputs are also protected against voltages up to 25V. Should an input be left unconnected, a 5K pulldown resistor to ground will commit the output of the receiver to a high state.
+5V INPUT
10 F 6.3V
+
+
2 0.1 F + 6.3V 4 5
17
C+
1
V
CC
0.1 F 10V 3+ V+
C 1C+
2
*
0.1 F 10V
TTL/CMOS INPUTS
Charge Pump
V7
2 0.1 F + 6.3V 4 5
17
C+
1
V
CC
V+
0.1 F 10V 3+
C 1C+
2
*
10V
Charge Pump
V7
0.1 F + 16V 6
TTL/CMOS OUTPUTS TTL/CMOS INPUTS
+
0.1 F + 16V 6
+ 0.1 F
C 2400k
C 2400k
RS-232 OUTPUTS
T1 IN
12
T1
400k
15
T 1OUT
T1 IN
12
T1
400k
15
T 1OUT
T2 IN
11
T2
R 1
5k
8
T2 IN
11
T 2OUT
T2
8
T 2OUT
RS-232 INPUTS
R 1 OUT
R 1
5k
R 1 IN
R 2 OUT
10
R 2
5k
9
R 2 IN
R 2 OUT
10
R 2
5k
9
R 2 IN
SP310A
GND 16
18
ON/OFF
EN
1
SP312A
GND 16
18
SHUTDOWN
*The negative terminal of the V+ storage capacitor can be tied to either VCC or GND. Connecting the capacitor to VCC (+5V) is recommended.
*The negative terminal of the V+ storage capacitor can be tied to either VCC or GND. Connecting the capacitor to VCC (+5V) is recommended.
Figure 3. Typical Circuits using the SP310A and SP312A
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
5
RS-232 INPUTS
R 1 OUT
13
14
TTL/CMOS OUTPUTS
R 1 IN
13
14
RS-232 OUTPUTS
RS-232 INPUTS
3
R1
4
3
4
RS-232 OUTPUTS
VCC = +5V
+Vcc C1
+ -
C4
+ - +
C2
+ - -
VDD Storage Capacitor (V+) VSS Storage Capacitor (V-)
-Vcc
-Vcc
C3
Figure 4. Charge Pump -- Phase 1
In actual system applications, it is quite possible for signals to be applied to the receiver inputs before power is applied to the receiver circuitry. This occurs, for example, when a PC user attempts to print, only to realize the printer wasn't turned on. In this case an RS-232 signal from the PC will appear on the receiver input at the printer. When the printer power is turned on, the receiver will operate normally. All of these enhanced devices are fully protected. Charge Pump The charge pump is a Sipex-patented design (5,306,954) and uses a unique approach compared to older less-efficient designs. The charge pump still requires four external capacitors, but uses a four-phase voltage shifting technique to attain symmetrical power supplies. There is a free-running oscillator that controls the four phases of the voltage shifting. A description of each phase follows. Phase 1 -- VSS charge storage --During this phase of the 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 C2-. Since C2+ is connected to +5V, the voltage potential across capacitor C2 is now 10V.
Phase 2 -- VSS transfer -- Phase two of the clock connects the 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 capacitor C 1 is switched to +5V and the negative side is connected to ground. Phase 3 -- VDD charge storage -- The third phase of the clock is identical to the first phase -- the charge transferred in C1 produces -5V in the negative terminal of C1, which is applied to the negative side of capacitor C2. Since C2+ is at +5V, the voltage potential across C2 is a maximum of l0V. Phase 4 -- VDD transfer -- The fourth phase of the clock connects the negative terminal of C2 to ground, and transfers the generated l0V across C2 to C4, the VDD storage capacitor. Again, simultaneously with this, the positive side of capacitor C1 is switched to +5V and the negative side is connected to ground, and the cycle begins again. 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
VCC = +5V
C4
+ - +
C1
+ -
C2
+ - -
VDD Storage Capacitor VSS Storage Capacitor
Vss
C3
Figure 5. Charge Pump -- Phase 2
Date: 10/17/ 05 SP232A Series Enhanced RS232 Transceivers (c) Copyright 2005 Sipex Corporation
6
VDD a) C2
+
GND GND b) C2- Vss
Figure 6. Charge Pump Waveforms
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. The clock rate for the charge pump typically operates at greater than 15kHz. The external capacitors can be as low as 0.1F with a 10V breakdown voltage rating.
Shutdown (SD) and Enable (EN) for the SP310A and SP312A Both the SP310A and SP312A have a shutdown/ standby mode to conserve power in battery-powered systems. To activate the shutdown mode, which stops the operation of the charge pump, a logic "0" is applied to the appropriate control line. For the SP310A, this control line is ON/OFF (pin 18). Activating the shutdown mode also puts the
VCC = +5V
+5V C1
+ -
C4
+ - +
C2
+ - -
VDD Storage Capacitor VSS Storage Capacitor
-5V
-5V
C3
Figure 7. Charge Pump -- Phase 3
Vcc = +5V
VDD C1
+ -
C4
+ - +
C2
+ - -
VDD Storage Capacitor VSS Storage Capacitor
C3
Figure 8. Charge Pump -- Phase 4
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
7
SP310A transmitter and receiver outputs in a high impedance condition (tri-stated). The shutdown mode is controlled on the SP312A by a logic "0" on the SHUTDOWN control line (pin 18); this also puts the transmitter outputs in a tri-state mode. The receiver outputs can be tri-stated separately during normal operation or shutdown by a logic "1" on the ENABLE line (pin 1). Wake-Up Feature for the SP312A The SP312A has a wake-up feature that keeps all the receivers in an enabled state when the device is in the shutdown mode. Table 1 defines the truth table for the wake-up function. With only the receivers activated, the SP312A typically draws less than 5A supply current. In the case of a modem interfaced to a computer in power down mode, the Ring Indicator (RI) signal from the modem would be used to "wake up" the computer, allowing it to accept data transmission. After the ring indicator signal has propagated through the SP312A receiver, it can be used to trigger the power management circuitry of the computer to power up the microprocessor, and bring the SD pin of the SP312A to a logic high, taking it out of the shutdown mode. The receiver propagation delay is typically 1s. The enable time for V+ and V- is typically 2ms. After V+ and V- have settled to their final values, a signal can be sent back to the modem on the data terminal ready (DTR) pin signifying that the computer is ready to accept and transmit data.
SD 0 0 1 1 EN 0 1 0 1 Power Up/Down Down Down Up Up Receiver Outputs Enable Tri-state Enable Tri-state
Pin Strapping for the SP233ACT/ACP The SP233A packaged in the 20-pin SOIC package (SP233ACT) has a slightly different pinout than the SP233A in PDIP packaging (SP233ACP). To operate properly, the following pairs of pins must be externally wired together:
Pins Wired Together
Two V- Pins Two C2+ Pins Two C2- Pins
SOIC
PDIP
10 & 17 12 & 17 12 & 15 11 & 15 11 & 16 10 & 16 No Connections for Pins 8, 13, and 14 Connect Pins 6 and 9 to GND
Table 1. Wake-up Function Truth Table.
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
8
PACKAGE: 16 PIN NSOIC
D
SIDE VIEW
A E1 E1/2 A1 E A2 Seating Plane
E/2
INDEX AREA (D/2 X E1/2)
1 2 3
(L1) b e
TOP VIEW
h h Gauge Plane L2 o L Seating Plane o1
o1 o2 R1 R
c
FRONT VIEW
16 Pin NSOIC
SYMBOL
JEDEC MS-012
Variation AC
Dimensions in Inches Conversion Factor: 1 Inch = 25.40 mm
Dimensions in Millimeters: Controlling Dimension MIN NOM 6.00 BSC 3.90 BSC 1.27 BSC MAX 1.75 0.25 1.65 0.51 0.25 MIN 0.053 0.004 0.049 0.012 0.007
NOM
MAX 0.069 0.010 0.065 0.020 0.010
A A1 A2 b c E E1 e h L L1 L2 R R1 o o1 o2
1.35 0.10 1.25 0.31 0.17
1.04 REF 0.25 BSC 0.07 0.07 0 5 0 D 9.90 BSC SIPEX Pkg Signoff Date/Rev:
0.25 0.40
0.236 BSC 0.154 BSC 0.050 BSC 0.50 0.010 1.27 0.016 0.041 REF 0.010 BSC 0.003 0.003 8 0 15 5 0 0.390 BSC JL Oct12 -05 / Rev A
0.020 0.050
8 15 -
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
9
PACKAGE: 16 PIN WSOIC
D
SIDE VIEW
E/2 A E1 E1/2
INDEX AREA (0.25D X 0.75E1)
1 2 3
A2 A1 Seating Plane
E
(L1) b e
TOP VIEW
FRONT VIEW
h Gauge Plane L2 o L
h
o1 o2 R1 R
Seating Plane
o1
c
16 PIN WSOIC
SYMBOL
JEDEC MS-013
Variation AA
Dimensions in Millimeters: Controlling Dimension MIN 2.35 0.10 2.05 0.31 0.20
A A1 A2 b c E E1 e h L L1 L2 R R1 o o1 o2 D
NOM MAX 2.65 0.30 2.55 0.51 0.33 10.30 BSC 7.50 BSC 1.27 BSC 0.25 0.75 0.40 1.27 1.40 REF 0.25 BSC 0.07 0.07 0 8 5 15 0 10.30 REF SIPEX Pkg Signoff Date/Rev:
Dimensions in Inches Conversion Factor: 1 Inch = 25.40 mm MIN NOM MAX 0.093 0.104 0.004 0.012 0.081 0.100 0.012 0.020 0.008 0.013 0.406 BSC 0.295 BSC 0.050 BSC 0.010 0.030 0.016 0.050 0.055 REF 0.010 BSC 0.003 0.003 0 8 5 15 0 0.405 REF JL Oct11-05/ Rev A
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
10
PACKAGE: 16/18/20 PIN PDIP
A1 D A D1 b3 e b2 b L A2
INDEX AREA
N E1 E
123
N/2
E
b
C
c eA eB
PDIP JEDEC MS-001 Common Dimensions Dimensions in Inches. Controlling Dimension. SYMBOL MIN NOM MAX A 0.21 A1 0.15 A2 0.115 0.13 0.195 b 0.014 0.018 0.022 b2 0.045 0.06 0.07 b3 0.3 0.039 0.045 c 0.008 0.01 0.014 D1 0.005 E 0.3 0.31 0.325 E1 0.24 0.25 0.28 .100 BSC e .300 BSC eA eB 0.43 L 0.115 0.13 0.15 PDIP JEDEC MS-001 VARIATION AB N = 16 Pins D 0.78 0.79 0.8 PDIP JEDEC MS-001 VARIATION AC N = 18 Pins D 0.88 0.9 0.92 PDIP JEDEC MS-001 VARIATION AD N = 20 Pins D 0.98 1.03 1.06
PDIP JEDEC MS-001 Common Dimensions Dimensions in Millimeters. Conversion factor: 1 inch = 25.40 mm. MIN NOM MAX SYMBOL A 5.33 A1 3.81 A2 2.79 3.30 4.83 b 0.25 0.25 0.51 b2 1.02 1.52 1.78 b3 7.62 0.76 1.02 c 0.00 0.25 0.25 D1 0.00 E 7.62 7.87 8.13 E1 6.10 6.35 7.11 2.54 BSC e 7.62 BSC eA eB 10.92 L 2.79 3.30 3.81 PDIP JEDEC MS-001 VARIATION AB N = 16 Pins D 19.81 20.07 20.32 PDIP JEDEC MS-001 VARIATION AC N = 18 Pins D 22.35 22.86 23.37 PDIP JEDEC MS-001 VARIATION AD N = 20 Pins D 24.89 26.16 26.92
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
11
ORDERING INFORMATION
Part Number Temperature Range Topmark Package
SP232ACN.............................0C to +70C................................SP232ACN..........................................................................16-pin NSOIC SP232ACN/TR.......................0C to +70C................................SP232ACN..........................................................................16-pin NSOIC SP232ACP.............................0C to +70C.................................SP232ACP.........................................................................16-pin PDIP SP232ACT.............................0C to +70C.................................SP232ACT..........................................................................16-pin WSOIC SP232ACT/TR.......................0C to +70C.................................SP232ACT..........................................................................16-pin WSOIC SP232AEN..........................-40C to +85C................................SP232AEN..........................................................................16-pin NSOIC SP232AEN/TR....................-40C to +85C................................SP232AEN..........................................................................16-pin NSOIC SP232AEP..........................-40C to +85C................................SP232AEP..........................................................................16-pin PDIP SP232AET..........................-40C to +85C................................SP232AET...........................................................................16-pin WSOIC SP232AET/TR.....................-40C to +85C................................SP232AET...........................................................................16-pin WSOIC SP233ACP.............................0C to +70C.................................SP232ACP.........................................................................20-pin PDIP SP233ACT............................0C to +70C.................................SP233ACT...........................................................................20-pin WSOIC SP233ACT/TR......................0C to +70C.................................SP233ACT...........................................................................20-pin WSOIC SP233AEP..........................-40C to +85C................................SP232AEP..........................................................................20-pin PDIP SP233AET..........................-40C to +85C................................SP233AET...........................................................................20-pin WSOIC SP233AET/TR.....................-40C to +85C................................SP233AET...........................................................................20-pin WSOIC SP310ACP............................0C to +70C.................................SP310ACP.........................................................................18-pin PDIP SP310ACT............................0C to +70C.................................SP310ACT..........................................................................18-pin WSOIC SP310ACT/TR......................0C to +70C.................................SP310ACT..........................................................................18-pin WSOIC SP310AEP..........................-40C to +85C................................SP310AEP..........................................................................18-pin PDIP SP310AET..........................-40C to +85C................................SP310AET...........................................................................18-pin WSOIC SP310AET/TR.....................-40C to +85C................................SP310AET...........................................................................18-pin WSOIC SP312ACP............................0C to +70C.................................SP312ACP..........................................................................18-pin PDIP SP312ACT............................0C to +70C.................................SP312ACT...........................................................................18-pin WSOIC SP312ACT/TR......................0C to +70C.................................SP312ACT...........................................................................18-pin WSOIC SP312AEP..........................-40C to +85C................................SP312AEP...........................................................................18-pin PDIP SP312AET..........................-40C to +85C................................SP312AET............................................................................18-pin WSOIC SP312AET/TR.....................-40C to +85C................................SP312AET............................................................................18-pin WSOIC
Available in lead free packaging. To order add "-L" suffix to part number. Example: SP312AEA/TR = standard; SP312AEA-L/TR = lead free. /TR = Tape and Reel Pack quantity is 1,500 for WSOIC and 2,500 for NSOIC.
Sipex Corporation Headquarters and 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.
Date: 10/17/ 05
SP232A Series Enhanced RS232 Transceivers
(c) Copyright 2005 Sipex Corporation
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