HIN201IB [INTERSIL]

+5V Powered RS-232 Transmitters/Receivers with 0.1Microfarad External Capacitors; + 5V供电的RS - 232发射器/接收器,提供0.1Microfarad外部电容
HIN201IB
型号: HIN201IB
厂家: Intersil    Intersil
描述:

+5V Powered RS-232 Transmitters/Receivers with 0.1Microfarad External Capacitors
+ 5V供电的RS - 232发射器/接收器,提供0.1Microfarad外部电容

驱动器 接口集成电路 光电二极管
文件: 总13页 (文件大小:206K)
中文:  中文翻译
下载:  下载PDF数据表文档文件
HIN201 thru HIN213  
TM  
Data Sheet  
May 2000  
File Number 3980.8  
+5V Powered RS-232  
Features  
Transmitters/Receivers with 0.1Microfarad  
External Capacitors  
• Meets All RS-232E and V.28 Specifications  
• HIN203 and HIN205 Require No External Capacitors  
• Requires Only 0.1µF or Greater External Capacitors  
• High Data Rate. . . . . . . . . . . . . . . . . . . . . . . . . . .120kbit/s  
Two Receivers Active in Shutdown Mode (HIN213)  
The HIN201-HIN213 family of RS-232 transmitters/receivers  
interface circuits meet all ElA RS-232E and V.28  
specifications, and are particularly suited for those  
applications where ±12V is not available. They require a  
single +5V power supply (except HIN201) and feature  
onboard charge pump voltage converters which generate  
+10V and -10V supplies from the 5V supply. The HIN203  
and HIN205 require no external capacitors and are ideally  
suited for applications where circuit board space is critical.  
The family of devices offers a wide variety of RS-232  
transmitter/receiver combinations to accommodate various  
applications (see Selection Table).  
• Requires Only Single +5V Power Supply  
- (+5V and +12V - HIN201)  
• Onboard Voltage Doubler/Inverter  
• Low Power Consumption (Typ) . . . . . . . . . . . . . . . . . 5mA  
• Low Power Shutdown Function (Typ) . . . . . . . . . . . . 1µA  
• Three-State TTL/CMOS Receiver Outputs  
The HIN205, HIN206, HIN211 and HIN213 feature a low  
power shutdown mode to conserve energy in battery  
powered applications. In addition, the HIN213 provides two  
active receivers in shutdown mode allowing for easy  
“wakeup” capability.  
• Multiple Drivers  
- ±10V Output Swing for +5V lnput  
- 300Power-Off Source Impedance  
- Output Current Limiting  
- TTL/CMOS Compatible  
The drivers feature true TTL/CMOS input compatibility, slew  
rate-limited output, and 300power-off source impedance.  
The receivers can handle up to ±30V input, and have a 3kΩ  
to 7kinput impedance. The receivers also feature  
hysteresis to greatly improve noise rejection.  
- 30V/µs Maximum Slew Rate  
• Multiple Receivers  
- ±30V Input Voltage Range  
- 3kto 7kInput Impedance  
- 0.5V Hysteresis to Improve Noise Rejection  
Applications  
• Any System Requiring RS-232 Communications Port  
- Computer - Portable, Mainframe, Laptop  
- Peripheral - Printers and Terminals  
- Instrumentation  
- Modems  
Selection Table  
NUMBER OF  
0.1µF  
EXTERNAL  
CAPACITORS  
NUMBER OF  
RECEIVERS  
ACTIVE IN  
NUMBER OF  
RS-232  
DRIVERS  
NUMBER OF  
RS-232  
RECEIVERS  
LOW POWER  
SHUTDOWN/TTL  
THREE-STATE  
PART  
NUMBER  
POWER SUPPLY  
VOLTAGE  
SHUTDOWN  
HIN201  
+5V and +9V to 13.2V  
2
2
2
5
4
5
4
4
4
2
2
2
5
3
3
4
5
5
2 Capacitors  
4 Capacitors  
None  
No/No  
No/No  
0
0
0
0
0
0
0
0
2
HIN202  
HIN203  
HIN205  
HIN206  
HIN207  
HIN208  
HIN211  
HIN213  
+5V  
+5V  
+5V  
+5V  
+5V  
5V  
No/No  
None  
Yes/Yes  
Yes/Yes  
No/No  
4 Capacitors  
4 Capacitors  
4 Capacitors  
4 Capacitors  
4 Capacitors  
No/No  
+5V  
+5V  
Yes/Yes  
Yes/Yes  
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.  
1-888-INTERSIL or 321-724-7143 | Intersil and Design is a trademark of Intersil Corporation. | Copyright © Intersil Corporation 2000  
3-1  
HIN201 thru HIN213  
Ordering Information  
TEMP.  
RANGE ( C)  
TEMP.  
o
o
PART NO.  
PACKAGE  
24 Ld SOIC  
PKG. NO.  
M24.3  
PART NO.  
HIN201CB  
HIN201IB  
HIN202CP  
HIN202CB  
HIN202IP  
HIN202CA  
HIN202IA  
HIN202IB  
HIN202CBN  
HIN202IBN  
HIN203CP  
HIN203CB  
HIN205CP  
HIN206CP  
HIN206CB  
HIN206CA  
HIN206IP  
HIN206IB  
HIN206IA  
HIN207CP  
RANGE ( C)  
0 to 70  
PACKAGE  
16 Ld SOIC (W)  
16 Ld SOIC (W)  
16 Ld PDIP  
PKG. NO.  
M16.3  
HIN207CB  
HIN207CA  
HIN207IP  
HIN207IB  
HIN207IA  
HIN208CP  
HIN208CB  
HIN208CA  
HIN208IP  
HIN208IB  
HIN208IA  
HIN211CB  
HIN211CA  
HIN211IB  
HIN211IA  
HIN213CB  
HIN213CA  
HIN213IB  
HIN213IA  
0 to 70  
0 to 70  
24 Ld SSOP  
24 Ld PDIP (N)  
24 Ld SOIC  
24 Ld SSOP  
24 Ld PDIP (N)  
24 Ld SOIC  
24 Ld SSOP  
24 Ld PDIP (N)  
24 Ld SOIC  
24 Ld SSOP  
28 Ld SOIC  
28 Ld SSOP  
28 Ld SOIC  
28 Ld SSOP  
28 Ld SOIC  
28 Ld SSOP  
28 Ld SOIC  
28 Ld SSOP  
M24.209  
E24.3  
-40 to 85  
0 to 70  
M16.3  
-40 to 85  
-40 to 85  
-40 to 85  
0 to 70  
E16.3  
M24.3  
0 to 70  
16 Ld SOIC (W)  
16 Ld PDIP  
M16.3  
M24.209  
E24.3  
-40 to 85  
0 to 70  
E16.3  
16 Ld SSOP  
M16.209  
M16.209  
M16.3  
0 to 70  
M24.3  
-40 to 85  
-40 to 85  
0 to 70  
16 Ld SSOP  
0 to 70  
M24.209  
E24.3  
16 Ld SOIC (W)  
16 Ld SOIC (N)  
16 Ld SOIC (N)  
20 Ld PDIP  
-40 to 85  
-40 to 85  
-40 to 85  
0 to 70  
M16.15  
M16.15  
E20.3  
M24.3  
-40 to 85  
0 to 70  
M24.209  
M28.3  
0 to 70  
20 Ld SOIC (W)  
24 Ld PDIP (W)  
24 Ld PDIP (N)  
24 Ld SOIC  
M20.3  
0 to 70  
M28.209  
M28.3  
0 to 70  
E24.6  
-40 to 85  
-40 to 85  
0 to 70  
0 to 70  
E24.3  
M28.209  
M28.3  
0 to 70  
M24.3  
0 to 70  
24 Ld SSOP  
M24.209  
E24.3  
0 to 70  
M28.209  
M28.3  
-40 to 85  
-40 to 85  
-40 to 85  
0 to 70  
24 Ld PDIP (N)  
24 Ld SOIC  
-40 to 85  
-40 to 85  
M24.3  
M28.209  
24 Ld SSOP  
M24.209  
E24.3  
NOTE: Most surface mount devices are available on tape and reel;  
add “-T” to suffix.  
24 Ld PDIP (N)  
Pin Descriptions  
PIN  
FUNCTION  
V
Power Supply Input 5V ±10%, 5V ±5% (HIN207, HIN203, and HIN205).  
Internally generated positive supply (+10V nominal), HIN201 requires +9V to +13.2V.  
Internally generated negative supply (-10V nominal).  
Ground Lead. Connect to 0V.  
CC  
V+  
V-  
GND  
C1+  
C1-  
C2+  
C2-  
External capacitor (+ terminal) is connected to this lead.  
External capacitor (- terminal) is connected to this lead.  
External capacitor (+ terminal) is connected to this lead.  
External capacitor (- terminal) is connected to this lead.  
T
Transmitter Inputs. These leads accept TTL/CMOS levels. An internal 400kpull-up resistor to V is connected to each lead.  
IN  
CC  
T
Transmitter Outputs. These are RS-232 levels (nominally ±10V).  
OUT  
R
Receiver Inputs. These inputs accept RS-232 input levels. An internal 5kpull-down resistor to GND is connected to each input.  
Receiver Outputs. These are TTL/CMOS levels.  
IN  
R
OUT  
EN, EN  
SD, SD  
NC  
Enable Input. This is an active low input which enables the receiver outputs. With EN = 5V, (HIN213 EN = 0V), the outputs are placed  
in a high impedance state.  
Shutdown Input. With SD = 5V (HIN213 SD = 0V), the charge pump is disabled, the receiver outputs are in a high impedance state  
(except R4 and R5 of HIN213) and the transmitters are shut off.  
No Connect. No connections are made to these leads.  
3-2  
HIN201 thru HIN213  
Pinouts  
HIN201 (SOIC)  
HIN202 (PDIP, SOIC, SSOP)  
TOP VIEW  
TOP VIEW  
1
2
3
4
5
6
7
8
16  
15  
14  
13  
12  
1
2
3
4
5
6
7
8
16  
C1+  
V+  
V
CC  
C+  
C-  
V+  
15 V  
14  
GND  
T1  
CC  
C1-  
C2+  
C2-  
V-  
V-  
GND  
OUT  
T2  
13 T1  
OUT  
R1  
R1  
T1  
OUT  
IN  
R2  
12 R1  
11 R1  
10 T1  
IN  
IN  
OUT  
11  
10  
9
R2  
OUT  
OUT  
IN  
IN  
T2  
IN  
T2  
T2  
IN  
OUT  
9
R2  
OUT  
R2  
NC  
NC  
IN  
+5V  
+5V  
15  
+9V TO +13.2V  
16  
16  
V
CC  
V+  
V
CC  
1
0.1µF  
1
2
C1+  
+
+
C+  
+
+
2
+5V TO 10V  
+
+12V TO -12V  
VOLTAGE INVERTER  
0.1µF  
0.1µF  
3
0.1µF  
V+  
V-  
3
4
V-  
VOLTAGE INVERTER  
C1-  
C-  
0.1µF  
+
C2+  
+10V TO -10V  
VOLTAGE INVERTER  
+5V  
T1  
6
13  
5
400kΩ  
10  
T1  
T1  
IN  
C2-  
0.1µF  
OUT  
+5V  
T2  
+5V  
T1  
14  
400kΩ  
7
4
400kΩ  
11  
T2  
R1  
T2  
IN  
T1  
OUT  
T1  
IN  
OUT  
11  
12  
+5V  
T2  
R1  
400kΩ  
IN  
10  
12  
7
OUT  
T2  
R1  
T2  
IN  
OUT  
5kΩ  
5kΩ  
R1  
13  
R1  
IN  
OUT  
6
5
R2  
R2  
5kΩ  
5kΩ  
IN  
OUT  
R1  
R2  
9
8
R2  
R2  
GND  
IN  
OUT  
R2  
14  
GND  
15  
3-3  
HIN201 thru HIN213  
Pinouts (Continued)  
HIN203 (PDIP, SOIC)  
HIN205 (PDIP)  
TOP VIEW  
TOP VIEW  
T4  
T3  
T1  
T2  
1
2
24  
R3  
OUT  
OUT  
OUT  
OUT  
IN  
1
2
3
4
5
6
7
8
9
R2  
R2  
T2  
T1  
20  
19  
OUT  
IN  
23 R3  
OUT  
IN  
IN  
IN  
3
22 T5  
R1  
18 T2  
OUT  
OUT  
21 SD  
20 EN  
4
R1  
IN  
17 V-  
R2  
IN  
5
T1  
16 C2-  
OUT  
R2  
OUT  
6
19 T5  
OUT  
GND  
15 C2+  
T2  
7
18 R4  
IN  
IN  
IN  
V
14 V+ (C1-)  
13 C1- (C1+)  
CC  
T1  
8
17 R4  
OUT  
IN  
(V+) C1+  
GND  
R1  
OUT  
9
16 T4  
15 T3  
12  
V- (C2+)  
R1  
IN  
10  
IN  
(V-) C2- 10  
11 C2+ (C2-)  
GND 11  
12  
14 R5  
OUT  
IN  
NOTE: Pin numbers in parentheses are for SOIC Package.  
V
CC  
13 R5  
+5V  
+5V  
12  
0.1µF  
+
V
+
0.1µF  
CC  
6
+5V  
T1  
400kΩ  
3
8
7
V
CC  
T1  
T1  
T1  
OUT  
IN  
+5V  
+5V  
2
5
400kΩ  
400kΩ  
+5V  
+5V  
+5V  
T2  
T1  
T2  
T1  
T2  
IN  
OUT  
400kΩ  
4
2
1
T2  
T3  
T4  
T2  
T3  
T4  
OUT  
IN  
T2  
1
3
18  
4
T3  
T4  
15  
16  
400kΩ  
400kΩ  
IN  
OUT  
OUT  
OUT  
IN  
IN  
R1  
R1  
R2  
OUT  
IN  
IN  
5kΩ  
5kΩ  
+5V  
T5  
400kΩ  
22  
9
19  
10  
19  
20  
T5  
T5  
OUT  
IN  
R2  
OUT  
8 (13)  
11 (12)  
R1  
R1  
R2  
R3  
OUT  
OUT  
OUT  
IN  
IN  
IN  
C1+  
C1-  
V-  
C2+  
C2+  
C2-  
C2-  
5kΩ  
5kΩ  
5kΩ  
NO  
CONNECT  
13 (14)  
R1  
15  
16  
5
6
12 (10)  
R2  
R3  
INTERNAL  
-10V  
SUPPLY  
R2  
R3  
R4  
17  
10 (11)  
V-  
23  
24  
INTERNAL  
+10V  
SUPPLY  
14 (8)  
GND  
6
GND  
9
V+  
17  
18  
R4  
R4  
R5  
OUT  
IN  
5kΩ  
5kΩ  
14  
20  
13  
21  
R5  
OUT  
EN  
IN  
R5  
SD  
GND  
11  
3-4  
HIN201 thru HIN213  
Pinouts (Continued)  
HIN206 (PDIP, SOIC, SSOP)  
HIN207 (PDIP, SOIC, SSOP)  
TOP VIEW  
TOP VIEW  
T3  
T1  
T2  
1
2
24  
23  
22  
21  
20  
19  
18  
17  
1
2
3
4
5
6
7
8
9
24 T4  
OUT  
T3  
T1  
T2  
T4  
OUT  
OUT  
OUT  
OUT  
OUT  
OUT  
OUT  
23 R2  
R2  
IN  
IN  
R2  
T5  
3
22  
21  
20  
19  
18  
17  
16  
R2  
OUT  
OUT  
R1  
IN  
4
R1  
IN  
SD  
EN  
T4  
IN  
R1  
T5  
T4  
T3  
5
R1  
OUT  
OUT  
IN  
OUT  
T2  
IN  
6
T2  
IN  
IN  
T1  
IN  
7
T3  
IN  
T1  
IN  
IN  
R3  
8
GND  
R3  
GND  
OUT  
IN  
OUT  
IN  
V
R3  
9
16 R3  
V
CC  
CC  
10  
11  
12  
15  
14  
13  
C1+ 10  
V+ 11  
15 V-  
V-  
C1+  
V+  
14 C2-  
13 C2+  
C2-  
C1- 12  
C2+  
C1-  
+5V  
+5V  
9
9
0.1µF  
10  
+
12  
V
+
+
CC  
C1+  
11  
0.1µF  
0.1µF  
10  
V+  
V
+
+
+5V TO 10V  
VOLTAGE DOUBLER  
CC  
C1+  
+
12  
11  
C1-  
V+  
V-  
0.1µF  
0.1µF  
+5V TO 10V  
VOLTAGE DOUBLER  
13  
+
14  
C1-  
C2+  
+10V TO -10V  
VOLTAGE INVERTER  
13  
+
14  
15  
2
0.1µF  
V-  
C2+  
+10V TO -10V  
VOLTAGE INVERTER  
C2-  
15  
2
0.1µF  
C2-  
0.1µF  
+5V  
T1  
400kΩ  
7
+5V  
T1  
T1  
IN  
T1  
T2  
OUT  
400kΩ  
7
T1  
T1  
IN  
OUT  
+5V  
T2  
400kΩ  
6
3
T2  
T2  
IN  
+5V  
+5V  
+5V  
OUT  
400kΩ  
6
3
1
T2  
T2  
IN  
OUT  
+5V  
+5V  
+5V  
T3  
T4  
T5  
400kΩ  
400kΩ  
400kΩ  
18  
19  
1
T3  
T4  
T5  
T3  
IN  
T3  
T4  
OUT  
OUT  
OUT  
400kΩ  
400kΩ  
18  
T3  
T3  
IN  
OUT  
24  
T4  
IN  
19  
5
24  
4
T4  
T4  
IN  
OUT  
21  
5
20  
4
T5  
IN  
R1  
IN  
R1  
OUT  
5kΩ  
5kΩ  
R1  
R1  
R1  
IN  
OUT  
5kΩ  
5kΩ  
R1  
22  
23  
R2  
IN  
R2  
OUT  
22  
17  
23  
16  
R2  
R2  
R2  
IN  
OUT  
R2  
17  
20  
16  
21  
R3  
IN  
R3  
OUT  
EN  
5kΩ  
R3  
R3  
R3  
IN  
OUT  
SD  
5kΩ  
R3  
GND  
GND  
8
8
3-5  
HIN201 thru HIN213  
Pinouts (Continued)  
HIN208 (PDIP, SOIC, SSOP)  
HIN211 (SOIC, SSOP)  
TOP VIEW  
TOP VIEW  
T3  
T1  
T2  
1
2
3
4
5
6
7
8
9
28 T4  
OUT  
OUT  
OUT  
OUT  
T2  
T1  
27 R3  
T3  
1
2
24  
23  
22  
21  
20  
19  
18  
17  
16  
15  
14  
13  
OUT  
IN  
OUT  
R3  
R3  
T4  
26 R3  
OUT  
OUT  
IN  
R2  
IN  
25 SD  
24 EN  
23 R4  
R2  
IN  
3
OUT  
R2  
R2  
4
OUT  
IN  
OUT  
T1  
IN  
T4  
T3  
T2  
T2  
IN  
5
OUT  
IN  
R1  
T1  
IN  
22 R4  
6
OUT  
IN  
OUT  
R1  
IN  
R1  
21 T4  
7
IN  
OUT  
IN  
IN  
R4  
R4  
V-  
GND  
R1  
IN  
20  
T3  
8
OUT  
IN  
V
GND 10  
19 R5  
18 R5  
17 V-  
9
CC  
OUT  
IN  
C1+  
V+  
V
11  
12  
13  
10  
11  
12  
CC  
C2-  
C1+  
V+  
C1-  
C2+  
16  
C2-  
C1- 14  
15 C2+  
+5V  
11  
0.1µF  
12  
+
14  
+5V  
9
V
+
+
CC  
C1+  
13  
V+  
V-  
0.1µF  
+5V TO 10V  
VOLTAGE DOUBLER  
0.1µF  
10  
C1-  
V
+
+
CC  
C1+  
15  
+
16  
+
12  
11  
V+  
V-  
0.1µF  
0.1µF  
C2+  
+5V TO 10V  
VOLTAGE DOUBLER  
+10V TO -10V  
VOLTAGE INVERTER  
17  
2
0.1µF  
C1-  
13  
+
14  
C2-  
0.1µF  
C2+  
+10V TO -10V  
VOLTAGE INVERTER  
15  
2
+5V  
T1  
400kΩ  
7
C2-  
0.1µF  
T1  
T1  
OUT  
IN  
+5V  
T1  
T2  
400kΩ  
5
+5V  
+5V  
+5V  
T2  
T3  
T4  
T1  
T1  
IN  
OUT  
400kΩ  
400kΩ  
400kΩ  
6
3
1
T2  
T3  
T4  
T2  
IN  
OUT  
+5V  
+5V  
+5V  
400kΩ  
18  
19  
1
T2  
T2  
IN  
OUT  
20  
T3  
IN  
OUT  
OUT  
T3  
T4  
400kΩ  
400kΩ  
24  
T3  
T3  
IN  
OUT  
21  
8
28  
9
T4  
IN  
21  
6
20  
7
T4  
T4  
IN  
OUT  
R1  
R1  
IN  
OUT  
R1  
IN  
R1  
5kΩ  
OUT  
R1  
5kΩ  
R1  
5
26  
22  
4
R2  
R3  
R4  
R5  
R2  
IN  
IN  
IN  
OUT  
4
22  
17  
3
R2  
IN  
R2  
R3  
R4  
5kΩ  
5kΩ  
5kΩ  
5kΩ  
OUT  
OUT  
OUT  
R2  
R3  
R4  
5kΩ  
5kΩ  
5kΩ  
R2  
R3  
27  
23  
R3  
OUT  
23  
16  
R3  
IN  
R4  
OUT  
R4  
IN  
R4  
19  
24  
18  
25  
R5  
IN  
OUT  
GND  
R5  
8
EN  
SD  
GND  
10  
3-6  
HIN201 thru HIN213  
Pinouts (Continued)  
HIN213 (SOIC, SSOP)  
+5V  
TOP VIEW  
11  
0.1µF  
12  
+
14  
V
T3  
T1  
T2  
1
2
3
4
5
6
7
8
9
28 T4  
OUT  
+
+
CC  
C1+  
OUT  
OUT  
OUT  
13  
V+  
V-  
0.1µF  
0.1µF  
+5V TO 10V  
VOLTAGE DOUBLER  
27 R3  
26 R3  
IN  
C1-  
15  
+
16  
OUT  
C2+  
+10V TO -10V  
VOLTAGE INVERTER  
25 SD  
24 EN  
R2  
IN  
17  
2
C2-  
0.1µF  
R2  
OUT  
+5V  
T1  
T2  
T1  
23 R4  
22 R4  
IN  
IN  
IN  
400kΩ  
7
T1  
T1  
IN  
OUT  
OUT  
IN  
R1  
21 T4  
20  
OUT  
+5V  
+5V  
+5V  
T2  
T3  
T4  
400kΩ  
400kΩ  
400kΩ  
6
3
1
R1  
IN  
T3  
T2  
T3  
T4  
IN  
T2  
IN  
OUT  
GND 10  
11  
19 R5  
18 R5  
17 V-  
OUT  
IN  
V
CC  
20  
T3  
IN  
OUT  
OUT  
C1+ 12  
V+ 13  
16 C2-  
15 C2+  
21  
8
28  
9
T4  
IN  
C1- 14  
R1  
R1  
IN  
OUT  
5kΩ  
R1  
NOTE: R4 and R5 active in shutdown.  
5
26  
22  
4
R2  
R3  
R4  
R5  
R2  
IN  
IN  
IN  
OUT  
5kΩ  
5kΩ  
5kΩ  
5kΩ  
R2  
R3  
R4  
27  
23  
R3  
OUT  
R4  
OUT  
19  
24  
18  
25  
R5  
IN  
OUT  
R5  
SD  
EN  
GND  
10  
3-7  
HIN201 thru HIN213  
Absolute Maximum Ratings  
Thermal Information  
o
V
to Ground. . . . . . . . . . . . . . . . . . . . . . (GND -0.3V) <V  
< 6V  
Thermal Resistance (Typical, Note 1)  
θJA ( C/W)  
CC  
V+ to Ground . . . . . . . . . . . . . . . . . . . . . . . . (V  
CC  
-0.3V) <V+ < 12V  
CC  
16 Ld SSOP Package . . . . . . . . . . . . . . . . . . . . . . .  
24 Ld SSOP Package . . . . . . . . . . . . . . . . . . . . . . .  
28 Ld SOIC Package . . . . . . . . . . . . . . . . . . . . . . . .  
28 Ld SSOP Package . . . . . . . . . . . . . . . . . . . . . . .  
155  
135  
70  
V- to Ground. . . . . . . . . . . . . . . . . . . . . . . .-12V < V- < (GND +0.3V)  
Input Voltages  
T
R
. . . . . . . . . . . . . . . . . . . . . . . . . (V- -0.3V) < V < (V+ +0.3V)  
IN  
IN  
100  
o
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±30V  
IN  
Maximum Junction Temperature (Plastic Package) . . . . . . . .150 C  
Maximum Storage Temperature Range. . . . . . . . . . -65 C to 150 C  
Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . . .300 C  
o
o
Output Voltages  
o
T
R
. . . . . . . . . . . . . . . . . . . .(V- -0.3V) < V  
. . . . . . . . . . . . . . . . . (GND -0.3V) < V  
< (V+ +0.3V)  
< (V+ +0.3V)  
OUT  
TXOUT  
RXOUT  
OUT  
(SOIC and SSOP - Lead Tips Only)  
Short Circuit Duration  
T
R
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Continuous  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Continuous  
OUT  
OUT  
ESD Classification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Class 1  
Operating Conditions  
Temperature Range  
HIN2XXCX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 C to 70 C  
HIN2XXIX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -40 C to 85 C  
o
o
o
o
CAUTION: Stresses above those listed in “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress only rating and operation of the  
device at these or any other conditions above those indicated in the operational sections of this specification is not implied.  
NOTE:  
1. θ is measured with the component mounted on an evaluation PC board in free air.  
JA  
Electrical Specifications Test Conditions: V = +5V ±10%, (V = +5V ±5%, HIN207); (V+ = 9V to 13.2V, HIN201), C1-C4 = 0.1µF;  
CC  
CC  
T = Operating Temperature Range  
A
PARAMETER  
SUPPLY CURRENTS  
Power Supply Current, I  
TEST CONDITIONS  
MIN  
TYP  
MAX  
UNITS  
No Load,  
T = 25 C  
A
HIN202, HIN203, HIN205  
-
-
-
-
8
15  
20  
1
mA  
mA  
mA  
mA  
CC  
o
HIN206 - HIN213  
HIN201  
11  
0.4  
5.0  
V+ Power Supply Current, I  
CC  
No Load,  
o
HIN201  
10  
T = 25 C  
A
o
Shutdown Supply Current, I (SD)  
CC  
T = 25 C  
HIN205, HIN206, HIN211  
HIN213  
-
-
1
10  
50  
µA  
µA  
A
15  
LOGIC AND TRANSMITTER INPUTS, RECEIVER OUTPUTS  
Input Logic Low, V  
T
T
, EN, SD, EN, SD  
-
2.0  
2.4  
-
-
-
0.8  
-
V
V
lL  
IN  
IN  
Input Logic High, V  
lH  
EN, SD, EN, SD  
= 0V  
-
-
V
Transmitter Input Pullup Current, I  
T
15  
0.1  
200  
0.4  
µA  
V
P
IN  
TTL/CMOS Receiver Output Voltage Low, V  
I
= 1.6mA  
-
OL  
OUT  
(HIN201-HIN203, I  
= 3.2mA)  
OUT  
TTL/CMOS Receiver Output Voltage High, V  
TTL/CMOS Receiver Output Leakage  
RECEIVER INPUTS  
I
= -1mA  
3.5  
-
4.6  
-
V
OH  
OUT  
EN = V , EN = 0, 0V < R  
CC  
< V  
0.05  
±10  
µA  
OUT  
CC  
RS-232 Input Voltage Range, V  
IN  
-30  
3.0  
0.8  
0.6  
-
+30  
V
kΩ  
V
o
Receiver Input Impedance, R  
IN  
T = 25 C, V = ±3V  
5.0  
1.2  
1.5  
7.0  
A
IN  
Receiver Input Low Threshold, V (H-L)  
IN  
V
= 5V,  
Active Mode  
-
-
CC  
T = 25 C  
o
A
Shutdown Mode  
HIN213 R4 and R5  
V
3-8  
HIN201 thru HIN213  
Electrical Specifications Test Conditions: V = +5V ±10%, (V = +5V ±5%, HIN207); (V+ = 9V to 13.2V, HIN201), C1-C4 = 0.1µF;  
CC  
CC  
T = Operating Temperature Range (Continued)  
A
PARAMETER  
Receiver Input High Threshold, V (L-H)  
TEST CONDITIONS  
MIN  
TYP  
1.7  
MAX  
2.4  
UNITS  
V
= 5V,  
Active Mode  
-
-
V
V
IN  
CC  
T = 25 C  
o
A
Shutdown Mode  
1.5  
2.4  
HIN213 R4 and R5  
Receiver Input Hysteresis, V  
HYST  
V
= 5V  
0.2  
0.5  
-
1.0  
-
V
CC  
No Hysteresis in Shutdown Mode  
TIMING CHARACTERISTICS  
Baud Rate  
1 Transmitter  
Switching  
R
= 3kΩ  
120  
kbps  
L
Output Enable Time, t  
HIN205, HIN206, HIN211, HIN213  
HIN205, HIN206, HIN211, HIN213  
HIN213 SD = 0V, R4, R5  
-
-
400  
200  
0.5  
0.5  
0.5  
-
-
ns  
ns  
EN  
Output Disable Time, t  
-
DIS  
Transmitter, Receiver Propagation Delay, t  
-
40  
10  
10  
30  
µs  
PD  
HIN213 SD = V , R1 - R5  
CC  
-
µs  
HIN201 - HIN211  
-
µs  
Transition Region Slew Rate, SR  
R
= 3k, C = 2500pF Measured from  
3
V/µs  
T
L
L
+3V to -3V or -3V to +3V, 1 Transmitter  
Switching (Note 2)  
TRANSMITTER OUTPUTS  
Output Voltage Swing, T  
Transmitter Outputs, 3kto Ground  
±5  
300  
-
±9  
-
±10  
V
OUT  
Output Resistance, R  
OUT  
V
= V+ = V- = 0V, V  
OUT  
= ±2V  
-
-
CC  
RS-232 Output Short Circuit Current, I  
T
Shorted to GND  
±10  
mA  
SC  
OUT  
NOTE:  
2. Guaranteed by design.  
VOLTAGE DOUBLER  
VOLTAGE INVERTER  
S5  
S1  
S3  
S2  
C2+  
C1+  
V+ = 2V  
S6  
CC  
V
GND  
CC  
+
+
+
+
C3  
C2  
C4  
C1  
-
-
-
-
V
GND  
CC  
V- = - (V+)  
GND  
C1-  
S4  
C2-  
S7  
S8  
RC  
OSCILLATOR  
FIGURE 1. CHARGE PUMP  
3-9  
HIN201 thru HIN213  
Receivers  
Detailed Description  
The receiver inputs accept up to ±30V while presenting the  
required 3kto 7kinput impedance even if the power is off  
(V = 0V). The receivers have a typical input threshold of  
1.3V which is within the ±3V limits, known as the transition  
region, of the RS-232 specifications. The receiver output is  
The HIN201 thru HIN213 family of RS-232  
transmitters/receivers are powered by a single +5V power  
supply (except HIN201), feature low power consumption,  
and meet all ElA RS232C and V.28 specifications. The  
circuit is divided into three sections: The charge pump,  
transmitter, and receiver.  
CC  
0V to V . The output will be low whenever the input is  
CC  
greater than 2.4V and high whenever the input is floating or  
driven between +0.8V and -30V. The receivers feature 0.5V  
hysteresis (except during shutdown) to improve noise  
rejection. The receiver Enable line (EN, on HIN205, HIN206  
and HIN211, EN on HIN213) when unasserted, disables the  
receiver outputs, placing them in the high impedance mode.  
The receiver outputs are also placed in the high impedance  
state when in shutdown mode (except HIN213 R4 and R5).  
Charge Pump  
An equivalent circuit of the charge pump is illustrated in  
Figure 1. The charge pump contains two sections: the  
voltage doubler and the voltage inverter. Each section is  
driven by a two phase, internally generated clock to generate  
+10V and -10V. The nominal clock frequency is 125kHz.  
During phase one of the clock, capacitor C1 is charged to  
V
. During phase two, the voltage on C1 is added to V  
,
CC  
CC  
V+  
producing a signal across C3 equal to twice V . During  
CC  
phase two, C2 is also charged to 2V , and then during  
CC  
V
CC  
phase one, it is inverted with respect to ground to produce a  
400kΩ  
300Ω  
signal across C4 equal to -2V . The charge pump accepts  
T
XIN  
CC  
T
OUT  
input voltages up to 5.5V. The output impedance of the  
voltage doubler section (V+) is approximately 200, and the  
output impedance of the voltage inverter section (V-) is  
approximately 450. A typical application uses 0.1µF  
capacitors for C1-C4, however, the value is not critical.  
Increasing the values of C1 and C2 will lower the output  
impedance of the voltage doubler and inverter, increasing  
the values of the reservoir capacitors, C3 and C4, lowers the  
ripple on the V+ and V- supplies.  
GND < T  
< V  
CC  
XIN  
V-  
V- < V  
TOUT  
< V+  
FIGURE 2. TRANSMITTER  
V
CC  
R
XIN  
R
OUT  
-30V < R  
< +30V  
XIN  
GND < V  
ROUT  
< V  
CC  
5kΩ  
During shutdown mode (HIN205, HIN206 and HIN211,  
GND  
SD = V , HIN213, SD = 0V) the charge pump is turned off,  
CC  
FIGURE 3. RECEIVER  
V+ is pulled down to V , V- is pulled up to GND, and the  
CC  
supply current is reduced to less than 10µA. The transmitter  
outputs are disabled and the receiver outputs (except for  
HIN213, R4 and R5) are placed in the high impedance state.  
T
OR  
R
IN  
IN  
Transmitters  
T
OUT  
OR  
V
OL  
The transmitters are TTL/CMOS compatible inverters which  
translate the inputs to RS-232 outputs. The input logic  
V
OL  
R
OUT  
t
t
PLH  
PHL  
threshold is about 26% of V , or 1.3V for V  
= 5V. A logic  
CC  
CC  
1 at the input results in a voltage of between -5V and V- at  
the output, and a logic 0 results in a voltage between +5V  
and (V+ - 0.6V). Each transmitter input has an internal  
400kpullup resistor so any unused input can be left  
unconnected and its output remains in its low state. The  
output voltage swing meets the RS-232C specifications of  
±5V minimum with the worst case conditions of: all  
t
t
PHL + PLH  
2
AVERAGE PROPAGATION DELAY =  
FIGURE 4. PROPAGATION DELAY DEFINITION  
HIN213 Operation in Shutdown  
The HIN213 features two receivers, R4 and R5, which  
remain active in shutdown mode. During normal operation  
the receivers propagation delay is typically 0.5µs. This  
propagation delay may increase slightly during shutdown.  
When entering shut down mode, receivers R4 and R5 are  
transmitters driving 3kminimum load impedance, V  
=
CC  
4.5V, and maximum allowable operating temperature. The  
transmitters have an internally limited output slew rate which  
is less than 30V/µs. The outputs are short circuit protected  
and can be shorted to ground indefinitely. The powered  
down output impedance is a minimum of 300with ±2V  
not valid for 80µs after SD = V . When exiting shutdown  
IL  
mode, all receiver outputs will be invalid until the charge  
pump circuitry reaches normal operating voltage. This is  
typically less than 2ms when using 0.1µF capacitors.  
applied to the outputs and V  
= 0V.  
CC  
3-10  
HIN201 thru HIN213  
Typical Performance Curves  
12  
12  
10  
8
0.1µF  
10  
8
V+ (V  
CC  
= 5V)  
6
6
V+ (V  
CC  
= 4V)  
= 5V)  
V- (V  
CC  
= 4V)  
4
4
o
T
= 25 C  
A
2
2
0
V- (V  
CC  
TRANSMITTER OUTPUTS  
OPEN CIRCUIT  
0
3.0  
3.5  
4.0  
4.5  
5.0  
5.5  
6.0  
0
5
10  
15  
|I  
20  
25  
30  
35  
V
| (mA)  
CC  
LOAD  
FIGURE 5. V- SUPPLY VOLTAGE vs V  
CC  
FIGURE 6. V+, V- OUTPUT VOLTAGE vs LOAD  
Test Circuits (HIN202)  
+4.5V TO  
+5.5V INPUT  
C1+  
V+  
1
2
3
16  
15  
14  
V
CC  
GND  
T1  
-
0.1µF  
C3  
C1-  
+
OUT  
V
C1+  
V+  
1
2
3
4
5
6
7
8
16  
CC  
4 C2+  
5 C2-  
R1 13  
IN  
+
0.1µF  
3kΩ  
GND 15  
R1  
12  
11  
10  
9
OUT  
C1  
-
T1  
C1-  
C2+  
C2-  
V-  
14  
13  
12  
11  
T1 OUTPUT  
OUT  
T1  
6 V-  
T2  
IN  
IN  
R1  
IN  
RS-232 ±30V INPUT  
TTL/CMOS OUTPUT  
TTL/CMOS INPUT  
TTL/CMOS INPUT  
TTL/CMOS OUTPUT  
+
-
T2  
0.1µF  
C2  
7
8
OUT  
R1  
OUT  
R2  
R2  
-
IN  
+
OUT  
T1  
IN  
0.1µF C4  
T2  
T2 10  
IN  
OUT  
3kΩ  
R
= V /I T2  
IN  
OUT  
OUT  
R2  
OUT  
9
R2  
IN  
T1  
OUT  
T2  
OUTPUT  
V
= ±2V  
A
IN  
RS-232  
±30V INPUT  
FIGURE 7. GENERAL TEST CIRCUIT  
FIGURE 8. POWER-OFF SOURCE RESISTANCE  
CONFIGURATION  
Application Information  
The HIN2XX may be used for all RS-232 data terminal and  
communication links. It is particularly useful in applications  
where ±12V power supplies are not available for  
conventional RS-232 interface circuits. The applications  
presented represent typical interface configurations.  
In applications requiring four RS-232 inputs and outputs  
(Figure 10), note that each circuit requires two charge pump  
capacitors (C1 and C2) but can share common reservoir  
capacitors (C3 and C4). The benefit of sharing common  
reservoir capacitors is the elimination of two capacitors and  
the reduction of the charge pump source impedance which  
effectively increases the output swing of the transmitters.  
A simple duplex RS-232 port with CTS/RTS handshaking is  
illustrated in Figure 9. Fixed output signals such as DTR  
(data terminal ready) and DSRS (data signaling rate select)  
is generated by driving them through a 5kW resistor  
connected to V+.  
3-11  
HIN201 thru HIN213  
+5V  
+
-
+
16  
1
CTR (20) DATA  
TERMINAL READY  
C1  
0.1µF  
3
DSRS (24) DATA  
SIGNALING RATE  
SELECT  
-
HIN202  
4
6
+
-
+
C2  
0.1µF  
RS-232  
INPUTS AND OUTPUTS  
5
-
T1  
11  
14  
TD  
TD (2) TRANSMIT DATA  
T2  
10  
12  
7
RTS (4) REQUEST TO SEND  
RD (3) RECEIVE DATA  
INPUTS RTS  
OUTPUTS  
TTL/CMOS  
13  
RD  
R2  
R1  
9
8
CTS  
CTS (5) CLEAR TO SEND  
15  
SIGNAL GROUND (7)  
FIGURE 9. SIMPLE DUPLEX RS-232 PORT WITH CTS/RTS HANDSHAKING  
1
4
+
+
C1  
C2  
HIN202  
T1  
5
0.1µF  
3
0.1µF  
-
-
11  
14  
TD  
RTS  
RD  
TD (2) TRANSMIT DATA  
RTS (4) REQUEST TO SEND  
RD (3) RECEIVE DATA  
T2  
10  
12  
7
INPUTS  
OUTPUTS  
TTL/CMOS  
13  
R2  
R1  
9
8
CTS  
CTS (5) CLEAR TO SEND  
15  
V
16  
CC  
6
6
2
2
C4  
C3  
+5V  
-
-
V- V+  
RS-232  
INPUTS AND OUTPUTS  
0.2µF  
0.2µF  
V
16  
4
CC  
HIN202  
T1  
1
+
+
C1  
0.1µF  
C2  
0.1µF  
5
3
-
-
11  
14  
DTR  
DSRS  
DCD  
R1  
DTR (20) DATA TERMINAL READY  
DSRS (24) DATA SIGNALING RATE SELECT  
DCD (8) DATA CARRIER DETECT  
R1 (22) RING INDICATOR  
T2  
10  
12  
7
INPUTS  
OUTPUTS  
TTL/CMOS  
13  
R2  
R1  
9
8
15  
SIGNAL GROUND (7)  
FIGURE 10. COMBINING TWO HIN202s FOR 4 PAIRS OF RS-232 INPUTS AND OUTPUTS  
3-12  
HIN201 thru HIN213  
Die Characteristics  
DIE DIMENSIONS:  
PASSIVATION:  
Type: Nitride over Silox  
160 mils x 140 mils  
Nitride Thickness: 8kÅ  
Silox Thickness: 7kÅ  
METALLIZATION:  
Type: Al  
TRANSISTOR COUNT:  
Thickness: 10kÅ ±1kÅ  
SUBSTRATE POTENTIAL  
V+  
238  
PROCESS:  
CMOS Metal Gate  
Metallization Mask Layout  
HIN211  
SHD  
EN  
R4  
R4  
T4 T3  
IN IN  
R5  
R5  
IN  
IN  
OUT  
OUT  
R3  
OUT  
V-  
C2-  
R3  
IN  
T4  
OUT  
OUT  
C2+  
C1-  
T3  
T1  
T2  
OUT  
V+  
OUT  
C1+  
R2  
IN  
V
CC  
R2  
T2 T1 R1  
IN IN OUT  
R1  
GND  
IN  
OUT  
All Intersil semiconductor products are manufactured, assembled and tested under ISO9000 quality systems certification.  
Intersil semiconductor products are sold by description only. Intersil Corporation reserves the right to make changes in circuit design and/or specifications at any time with-  
out notice. Accordingly, the reader is cautioned to verify that data sheets are current before placing orders. Information furnished by Intersil is believed to be accurate and  
reliable. However, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result  
from its use. No license is granted by implication or otherwise under any patent or patent rights of Intersil or its subsidiaries.  
For information regarding Intersil Corporation and its products, see web site www.intersil.com  
Sales Office Headquarters  
NORTH AMERICA  
EUROPE  
ASIA  
Intersil Corporation  
Intersil SA  
Mercure Center  
100, Rue de la Fusee  
1130 Brussels, Belgium  
TEL: (32) 2.724.2111  
FAX: (32) 2.724.22.05  
Intersil (Taiwan) Ltd.  
7F-6, No. 101 Fu Hsing North Road  
Taipei, Taiwan  
Republic of China  
TEL: (886) 2 2716 9310  
FAX: (886) 2 2715 3029  
P. O. Box 883, Mail Stop 53-204  
Melbourne, FL 32902  
TEL: (321) 724-7000  
FAX: (321) 724-7240  
3-13  

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