P82B715PN NXP Semiconductors, P82B715PN Datasheet - Page 11
P82B715PN
Manufacturer Part Number
P82B715PN
Description
IC, I/O EXPANDER, 400KHZ, DIP-8
Manufacturer
NXP Semiconductors
Datasheet
1.P82B715PN.pdf
(23 pages)
Specifications of P82B715PN
Bus Frequency
400kHz
Ic Interface Type
I2C
Supply Voltage Range
4.5V To 12V
Digital Ic Case Style
DIP
No. Of Pins
8
Termination Type
DIP
Interface Type
I2C
Filter Terminals
DIP
Rohs Compliant
Yes
Clock Frequency
3.6864MHz
Features
I2C-Bus
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
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P82B715_8
Product data sheet
8.3 Comparison of P82B715 versus P82B96 in the quick design-in
point-to-point/multi-point circuit
The lower V
primary advantage of the using the P82B715 for long distance buses at the disadvantage
of not isolating bus capacitance like the P82B96 or PCA9600 are able to do. The primary
disadvantage of the P82B96 and PCA9600 is that the static level offset needed to isolate
bus capacitance does not allow these devices to operate with other bus buffers with
special offset levels or with master/slaves that require a V
margin. Waveforms using the circuit shown in
P82B715 and
trade-offs and choose the type of device that is best for their application.
Fig 10. Clock and data signal output at Sx/Sy from a system with P82B715 at each end of
•
•
The 300 ns bus fall time, and the Standard-mode I
400 pF, must also be observed. If the 400 pF limit is observed the fall time limit will be
met. Allocate about
266 pF, for the cable bus loading as it will appear at the Sx/Sy pins. The 10 gain of
P82B715 allows the loading at Lx/Ly to be 10 times the load at Sx/Sy, so 2660 pF
maximum. The loading at Lx/Ly due to the other standard buses is 133 pF each. For
just one remote module the cable capacitance may then be up to
(2660
Ethernet (Cat5e) wiring, that capacitance is around 50 pF to 70 pF / meter so the
cable could, in theory, be up to 50 m long. From practical experience, 30 m has
proven a safe cable length to be driven in this simple way, up to 100 kHz, with the
values shown. Longer distances and higher speeds are possible but require more
careful design.
If there are severe EMI/ESD tests to be passed then large clamp diodes can be fitted
on the cable bus at each module to V
this ESD application, or simply large rectifiers (1N4000). The low-impedance bus
easily accommodates their relatively large capacitance. The P82B715 does not
provide any isolation between Lx and Sx, so this clamping method provides the best
protection for the lower voltage I
using low-impedance capacitors. Zeners may be fitted to prevent the supply rising due
to rectification during very large interference.
voltage
(V)
a 20 m cable
7
5
3
1
1
0
OL
133) = 2530 pF. For typical twisted pair or flat cables, as used for telephony or
SDA
Figure 11
level and ability to operate with any master, slave or bus buffer is the
SCL
Rev. 08 — 9 November 2009
1
using the P82B96 so that the designer can clearly see these
4
3
of this 400 pF limit, or 133 pF, to each I
2
C-bus parts. The V
8
SCL
CC
and to ground. They may be diodes rated for
Figure 9
SDA
12
2
are shown in
C-bus limit specification limit of
CC
IL
supply should be bypassed
lower than 0.8 V with noise
16
SCL
2
C-bus leaving
time ( s)
Figure 10
P82B715
002aad818
© NXP B.V. 2009. All rights reserved.
SDA
I
2
C-bus extender
20
using the
2
3
11 of 23
, or
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