CY7C53120E2-10SI Cypress Semiconductor Corp, CY7C53120E2-10SI Datasheet - Page 6
CY7C53120E2-10SI
Manufacturer Part Number
CY7C53120E2-10SI
Description
Manufacturer
Cypress Semiconductor Corp
Datasheet
1.CY7C53120E2-10SI.pdf
(15 pages)
Specifications of CY7C53120E2-10SI
Core Operating Frequency
10MHz
Operating Supply Voltage (typ)
5V
Operating Supply Voltage (max)
5.5V
Operating Supply Voltage (min)
4.5V
Mounting
Surface Mount
Operating Temperature (max)
85C
Operating Temperature (min)
-40C
Operating Temperature Classification
Industrial
Lead Free Status / Rohs Status
Not Compliant
Available stocks
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Price
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20 000
Memory Usage
All Neuron chips require system firmware to be present when
they are powered up. In the case of the CY7C53120 family, this
firmware is preprogrammed in the factory in an on-chip ROM. In
the case of the CY7C53150, the system firmware must be
present in the first 16 KB of an off-chip nonvolatile memory such
as Flash, EPROM, EEPROM, or NVRAM. These devices must
be programmed in a device programmer before board assembly.
Because the system firmware implements the network protocol,
it cannot itself be downloaded over the network.
For the CY7C53120 family, the user application program is
stored in on-chip Flash memory. It may be programmed using a
device programmer before board assembly, or may be
downloaded and updated over the LonTalk network from an
external network management tool.
For the CY7C53150, the user application program is stored in
on-chip Flash Memory and also in off-chip memory. The user
program may initially be programmed into the off-chip memory
device using a device programmer.
Flash Memory Retention and Endurance
Data and code stored in Flash Memory is guaranteed to be
retained for at least 10 years for programming temperature range
of –25°C to 85°C.
The Flash Memory can typically be written 100,000 times without
any data loss.
firmware extends the effective endurance of Flash memory in
two ways. If the data being written to a byte of Flash memory is
the same as the data already present in that byte, the firmware
does not perform the physical write. So for example, an appli-
cation that sets its own address in Flash memory after every
reset does not use up any write cycles if the address has not
changed. In addition, system firmware version 13.1 or higher is
able to aggregate writes to eight successive address locations
into a single write for CY7C53120E4 devices. For example, if 4
KB of code is downloaded over the network, the firmware would
execute only 512 writes rather than 4,096.
Document #: 38-10001 Rev. *F
Note
5. For detailed information about data retention after 100K cycles, see the Cypress qualification report.
[5]
An erase/write cycle takes 20 ms. The system
40 MHz 3120 Operation
The CY7C53120E4-40 device was designed to run at
frequencies up to 40 MHz using an external clock oscillator. It is
important to note that external oscillators may typically take on
the order of 5 ms to stabilize after power-up. The Neuron chip
must be held in reset until the CLK1 input is stable. With some
oscillators, this may require the use of a reset-stretching
Low-Voltage Detection chip/circuit. Check the oscillator vendor’s
specification for more information about start-up stabilization
times.
Low Voltage Inhibit Operation
The on-chip Low-voltage Inhibit circuit trips the Neuron chip
whenever the V
prevents the corruption of nonvolatile memory during voltage
drops.
Communications Port
The Neuron chip includes a versatile 5-pin communications port
that can be configured in three different ways. In Single-Ended
Mode, pin CP0 is used for receiving serial data, pin CP1 for trans-
mitting serial data, and pin CP2 enables an external transceiver.
Data is communicated using Differential Manchester encoding.
In Special Purpose Mode, pin CP0 is used for receiving serial
data, pin CP1 for transmitting serial data, pin CP2 transmits a bit
clock, and pin CP4 transmits a frame clock for use by an external
intelligent transceiver. In this mode, the external transceiver is
responsible for encoding and decoding the data stream.
In Differential Mode, pins CP0 and CP1 form a differential
receiver with built-in programmable hysteresis and low pass
filtering. Pins CP2 and CP3 form a differential driver. Serial data
is communicated using Differential Manchester encoding. The
following tables describe the communications port when used in
Differential Mode.
DD
input is less than 4.1 ± 0.3V. This feature
CY7C53150, CY7C53120
Page 6
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