ETC IBM31T1100

IBM31T1100A
Integrated Infrared Transceiver Module
Highlights
x IrDA 1.1, HP-SIR and Sharp ASK compliant
x Supports IrDA data rates up to 4 Mbps
x Low profile (height = 5.6 mm max.)
x Minimum external components
x On-chip LED protection circuit
x Low power consumption
x 5 V Supply Voltage
x Complete differential receiver design
x Ambient light and noise rejection circuitry
x Shutdown pin for power management
x Programmable bandwidth control
x Compatible with all major Super I/Os
Package
Vcc
3
Noise
Rejection
Circuit
+
Amp
Comp
2
Driver
RX
Vcc
General Description
The IBM31T1100A is a multi-mode integrated
infrared (IR) transceiver module for data
communication systems. The transceiver supports
IrDA speeds up to 4 Mbps, HP-SIR and Sharp ASK
modes. Integrated into this tiny package is a
photodiode, LED and analog transceiver ASIC to
provide a total solution in a single package. A
current limiting resistor in series with the LED and
a Vcc bypass capacitor are the only external
components required to implement a complete
transceiver.
8
SD/BW
TX
7
LEDA
BW
6
Control
logic
SD
Driver
4
GND
Block Diagram
1 LEDC
IBM31T1100A
Pin Assignments and Descriptions
TX
LEDA
7
8
6
LED
LEDC
Pin Name
1
LEDC
2
RX
3
Vcc
4
GND
5
NC
6
SD/BW
7
8
TX
LEDA
Guide Pins
(not shown above)
5
Photodiode
1
Pin
NC
SD/BW
2
3
RX
V CC
4
GND
Description
Indicates the state of the internal LED cathode. Normally not connected.
Indicates received serial data. It is a push-pull CMOS driver capable of driving a
standard CMOS or TTL load. No external pull-up or pull-down resistor is required. May
switch indeterminately when the IBM31T1100A is transmitting.
Connect to +5 V power supply. Place a 1.0-10 PF ceramic bypass capacitor as close as
possible to this pin.
Connect to ground of the power supply. A solid ground plane is recommended for proper
operation.
This pin is reserved for special application use only. No signal should be connected to
this pin.
This CMOS input is used to put the IBM31T1100A in shutdown mode. Nominal supply
current draw in this mode is 35 PA versus 5 mA in normal mode. Together with the TX
input, this pin also sets the receiver bandwidth. If TX is low when SD/BW transitions
from high to low, the receiver bandwidth is optimized for operation up to 1.2 Mbps. If
TX is high when SD/BW transitions from high to low, the receiver bandwidth is
optimized for operation at 4 Mbps.
Used to transmit serial data when SD/BW is low. This CMOS input controls the LED
driver. An on-chip protection circuit disables the LED driver if TX is high for more than
60 Psec. This pin is also used to program the bandwidth of the receiver. See SD/BW pin
description.
Connect this input to Vcc through a resistor to set the proper LED current. Add an
external LED in series to increase output intensity if required.
Two through-hole guide pins provide mechanical stability during board mounting. They
also improve heat conduction when the part is in operation.
NOTE: The IBM31T1100A is pin and plug compatible with the Temic TFDS6000D.
2
I/O
Active
O
Low
O
Low
I
High
I
High
I
IBM31T1100A
Electrical and Timing Specifications
Absolute Maximum Ratings
Symbol
V CC
Parameter
Min
Supply Voltage Range
- 0.5
Typ
Max
Unit
6
V
Condition
PD
Power Dissipation
450
mW
TJ
Junction Temperature
125
°C
85
°C
Soldering Temperature
240
°C
See application notes
LED Current
0.8
A
<2 µs, ton<10%
Vcc+ 0.5
V
Storage Temperature Range
ILED
- 25
Voltage at Any Pin
- 0.5
Recommended Operating Conditions
Symbol
Parameter
Min
Typ
Max
Unit
V CC
Supply Voltage
4.5
5
5.5
V
TA
Operating Temperature Range
70
°C
DC Electrical Characteristics
Symbol
0
Condition
TA = 0 - 70 qC, VCC = 5 V r 10 %, unless otherwise specified
Parameter
Min
Typ
Max
Unit
Condition
ICC
Dynamic Supply Current
5
7
mA
SD = 0 V
ICC
Standby Supply Current
35
100
uA
SD = VCC - 0.5, SC = NC
ILED
Repetitive Pulsed LED Current
0.55
A
< 60 µs, ton d 25 %
V OL
RX Output Voltage Low @ IOL = 2.5 mA
0.5
V
V OH
RX Output Voltage High @ -IOH = 2.5 mA
V IL
Input Voltage Low (TX, SD/BW)
V IH
Input Voltage High (TX)
V IH
Input Voltage High (SD/BW)
IL
Input Leakage Current
CI
Input Capacitance
0.3
VCC - 0.5
0
V
0.8
V
3.0
V
VCC - 0.5
V
-10
3
+10
uA
5
pF
IBM31T1100A
TA = 0 - 70 qC, VCC = 5 V r 10 %, unless otherwise specified
AC Electrical Characteristics
Symbol
Parameter
Min
Typ
Max
Unit
RLED = 2.0 K:, C = 50 pF
tR
RX Rise Time
10
40
ns
tF
RX Fall Time
10
40
ns
tS
TX Setup Time to SD/BW Low
200
ns
tH
TX Hold Time from SD/BW Low
200
ns
t PW
RX Pulse Width
0.8
20
us
9.6 kbps
t PW
RX Pulse Width
100
500
ns
1.2 Mbps
t PW
RX Pulse Width
60
165
ns
4 Mbps
t PW
RX Pulse Width
185
290
ns
4 Mbps double pulse
2
us
d 1.2 Mbps
2
tD
Output Delay @ Ee = 40 mW/cm
tL
Latency
120
us
RX Valid After Shutdown
60
us
LEDC Inactive After TX High
60
us
t RXEN
t DIS_ LED
Optical Characteristics
Symbol
E emin
E emin
E emin
E emax
1
Ie
Parameter
Min
Typ
Minimum Detection Irradiance (SIR mode)
0.025
Minimum Detection Irradiance
0.035
Minimum Detection Irradiance
Maximum Detection Irradiance
0.07
Max
0.035
0.05
0.08
5000
140
320 (1)
Unit
9.6 - 115 kbps
-2
1.2 Mbps
-2
4 Mbps
-2
Wm
All speeds
mW/sr
Tx = High, SD = Low, RLED = 5.6 :
Wm
Wm
Wm
VCC=5.0, D=0 q, D=r15 q, TA=25 qC
r24
Output Radiant Intensity Half Angle
Peak Wavelength
Condition
-2
Output Radiant Intensity
0.4
D
OP
RLED = 2.0 K:, C = 50 pF
TA = 0 - 70 qC, VCC = 5 V r 10%, unless otherwise specified
100
880
Optical Overshoot
1.
Condition
Maximum intensity specified for class 1 operation of IEC 825-1
4
uW/sr
q
900
nm
25
%
Tx=Low or SD=High, RLED=5.6 :
VCC=5.0, D=0 q, D=r15 q, TA=25 qC
I F LED Forward Current (mA)
IF Forward Current (mA)
IBM31T1100A
700
600
500
Min
400
Max
300
200
100
2.0
2.2
2.4
Input Irradiance in mW/cm**2
Output Intensity in mW/Sr
Typ
Min
75
50
25
0.6
200
100
1.9
2.1
100
10.0
1.0
0.1
0.01
0.001
50
0.8
100
150
200
RX pulse width in ns
Figure 3. Output Intensity vs. Current
Figure 4. RX pulse width vs. Irradiance - 4 Mbps mode.
Output Intensity in mW/Sr
VLEDA to GND Voltage (V)
1.7
1000
IF Forward Current in Amperes
2.4
2.3
2.2
2.1
Max
300
Figure 2. LED Forward Voltage vs. Current
150
0.4
Min
400
VF LED Forward Voltage (V) - TA = 25°C
175
0.2
500
1.5
Figure 1. VLEDA to GND Voltage vs. peak LED current.
100
600
2.6
VLEDA Forward Voltage (V) - TA = 25°C
125
700
IF =430mA
2.0
1.9
1.8
175
150
125
100
IF =430mA
75
50
25
10 20 30 40 50 60 70 80
10 20 30 40 50 60 70 80
Temperature in °C
Temperature in °C
Figure 6. Output Intensity vs. Temperature
Figure 5. VLEDA to GND Voltage vs. Temperature.
5
IBM31T1100A
Timing Diagrams
V IH
V IH
TX
SD/BW
50%
50%
V IL
V IL
tL
t RXEN
V OH
50%
RX
50%
RX
V OL
Figure 7. Latency Timing
Figure 8. RX valid after Shutdown.
V IH
TX
t PW
V OH
50%
50%
RX
V IL
t DIS_LED
V OL
Vcc
LEDC
50%
Figure 9. LED Protection Timing
t PW
Figure 10. RX Timing, 1.2 and 4 Mbps mode
tF
t RXH
90%
VOH
RX
50%
tR
VOH
RX
50%
10%
VOL
Figure 11. RX Timing, SIR mode. The output is indeterminate in the
shaded area. Spurious transitions may occur.
Figure 12. RX Rise and Fall timing measurements.
6
VOL
IBM31T1100A
Programming the Receiver Bandwidth
The IBM31T1100A powers on with the upper limit of the receiver
bandwidth set to 1.2 Mbps operation. To set the bandwidth for
operation at 4 Mbps, apply timings as shown in Figure 14 to the
SD/BW and the TX inputs. Note that the internal LED driver is
disabled when SD/BW is active and is not enabled until the next
rising edge of TX. This ensures that the LED(s) will not be active
during bandwidth adjustment. It is recommended that the SD/BW
pin be connected to GND if bandwidth adjustment and shutdown
mode are not used.
V IH
SD/BW
50%
V IL
tS
tH
V IH
TX
50%
50%
(Setting high bandwidth mode)
V IL
To switch the IBM31T1100A from the default state to 4 Mbps and
vice versa, the programming specifications are as follows:
TX
(Setting low bandwidth mode)
V IL
Figure 13. Bandwidth Programming
Setting the receiver to 4 Mbps mode
Setting the receiver to 9.6 kbps-to-1.2 Mbps mode
1.
2.
3.
1.
2.
3.
4.
Set the SD/BW input to logic high.
Set the TX input to logic high. Wait tS t 200 ns.
Set the SD/BW to logic low. (This high-to-low transition
latches the state of TX, which determines the receiver
bandwidth.)
After waiting tH t 200 ns, set the TX input to logic low. The
receiver is now in high bandwidth mode, the optimal setting
for 4 Mbps operation.
4.
Set the SD/BW input to logic high.
Ensure that the TX input is at logic low. Wait tS t 200 ns.
Set the SD/BW to logic low. (This high-to-low transition
latches the state of TX, which determines the receiver
bandwidth.)
Ensure that the TX input remains low for tH t 200 ns. The
receiver is now in low bandwidth mode, which is the optimal
setting for data rates from 9.6 kbps to 1.2 Mbps.
Package Dimensions
13 ± 0.5
5.45 ± 0.5
A
6.5 ± 0.5
3.75 ± 0.5
B
0.5 ± 0.1
0.9 ± 0.1
0.275 ± 0.075
2.35 ± 0.3
6.7 ± 0.4
0.5
B
Dimensions in mm.
7
(7X) 1.27
(2X) 1.45
1.5±0.2
0.635
0.6 ± 0.2
5.3 ± 0.3
4.0±0.3
A
3.3 ± 0.5
5 ± 3°
3.7 ± 0.5
0.5
IBM31T1100A
Revision History
The following changes have been made in the specifications from
the IBM31T1100 data sheet.
1.
Improved Irradiance values have been updated.
2.
LED protection circuit has been added.
3.
The RX rise time specification is 40 ns instead of 35 ns.
4.
200K internal pull-down resistor has been removed from the
SD/BW pin.
5.
Output Intensity and RX pulse width graphs have been
updated.
£
¤
International Business Machines Corporation 1995
Printed in the United States of America
5-97
All Rights Reserved
£
IBM and the IBM logo are registered trademarks of the IBM Corporation.
IBM Microelectronics is a trademark of the IBM Corporation.
¥
Hewlett-Packard is a registered trademark of Hewlett-Packard Corporation.
Sharp is a trademark of Sharp Electronics Corporation.
Ordering Information
Order Part Number
IBM31T1100A
All other registered trademarks and trademarks are the properties of their
respective companies.
Qty/Reel
750 Pieces
The information provided is believed to be accurate and reliable. IBM
reserves the right to make changes to the product described without notice.
No liability is assumed as a result of its use nor for any infringement of the
rights of others.
This document may contain preliminary information and is subject to
change by IBM without notice. IBM assumes no responsibility of liability
for any use of the information contained herein. Nothing in this document
shall operate as an express or implied license or indemnity under the
intellectual property rights of IBM or third parties. The products described
in this document are not intended for use in implantation or other direct life
support applications where malfunction may result in direct physical harm
or injury to persons. NO WARRANTIES OF ANY KIND, INCLUDING,
BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR
PURPOSE ARE OFFERED IN THIS DOCUMENT.
IBM Microelectronics Division
1580 Route 52, Bldg. 504
Hopewell Junction, NY
12533-6531
The IBM home page can be found at http://www.ibm.com
The IBM Microelectronics Division home page can be found at
http://www.chips.ibm.com
GH45-5286-01
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