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Renesas Technology Unveils R8C/Lx Series MCUs with Feature-rich LCD capabilities, 1.8V to 5.5V operation support and versatile peripherals for enhanced user interfaces
SAN DIEGO and SAN JOSE, Calif. — October 13, 2008 — Renesas
Developers’ Conference - Renesas Technology America, Inc. today announced a new
generation of microcontrollers (MCUs) with an on-board LCD controller.
The R8C/Lx Series is the latest addition to the Renesas R8C Family of MCUs,
which incorporates the powerful 16-bit R8C CPU core. The new devices
integrate a number of advanced features such as a data transfer controller
(DTC) and data flash memory with a background operation (BGO) function, which
are already available in many R8C devices today. The new R8C/Lx MCUs are
designed to maintain full peripheral compatibility with the existing R8C/3x
Series, which offers similar performance and features without LCD controllers.
As a result, the Lx Seriesallows developers to design with multiple product
models using various levels of user interface options and differentiating
features.
In the initial release phase of the R8C/Lx Series, a total of 112 devices
are available from eight different groups. The line-up includes the
R8C/L3A group, which incorporates an LCD controller for displays of up to 416
pixels, 128KB of flash memory, 4KB of data flash and 10KB of RAM in a 100-pin
package. For simpler LCD configurations, designers can select other
lower-pin R8C/Lx devices, such as the 52-pin R8C/L35 group,which supports up to
96 display pixels. Primary applications of these devices include
industrial control panels, security and fire alarm keypad systems,
health-monitoring systems, audio/video equipment, irrigation systems, elevator
control panels, and home appliances.
According to Ritesh Tyagi, director, system LSI business unit, Renesas
Technology America, Inc., “In recent years, we have observed a trend throughout
industries that many electronics manufacturers are attempting to augment and
differentiate their end products by improving the ease of use.
Recognizing this trend, Renesas decided to take advantage of the widely used
R8C core to develop the new R8C/Lx Series, incorporating sophisticated
functionality such as an LCD controller, which supports up to 416 pixels for
enhanced user interface experience. With the new R8C/Lx series, which is built
on the technology proven by millions of successfully adopted R8C MCUs around
the world, designers now have the ability to achieve the enhanced level of
human interface communication with minimum effort and cost.”
Summary of key features of new R8C/Lx Series MCUs
-
Advanced LCD controller — This highly integrated hardware block
supports up to 416 pixels of segment- or dot matrix-type LCDs. The module
incorporates a dedicated RAM area to store and manage all the data to be
displayed. Configuration settings include the use of an automatic blink
feature for each individual pixel. For maximum flexibility, 3V or 5V LCDs
can be driven directly from the R8C/Lx without external chips by using an
internal voltage multiplier.
-
1.8V to 5.5V operation —By supporting an extended operating voltage
range, the new R8C/Lx Series MCUs give system designers options for configuring
their power supplies, potentially reducing system cost by eliminating
unnecessary components.
-
Enhanced data flash with background operation — Data flash is a type
of high-endurance on-chip flash memory intended specifically for data storage.
It is available exclusively from Renesas Technology. The data flash in the new
R8C/Lx MCUs has a BGO function that allows the CPU to execute instructions
while data is being written to or erased from the data flash. This makes
program development much easier because no special consideration needs to be
given to the timing of data flash write and erase operations.
-
Data transfer controller — All of the new R8C/Lx groups, incorporate
a DTC that performs functions similar to those of a direct memory access
controller. The DTC unit manages data transfers from memory to memory, or
memory to peripherals, without CPU intervention. While the DTC is handling the
data transfers automatically, the CPU can perform other operations, so overall
system performance can increase. Moreover, the DTC is tightly coupled to the
peripherals so that any hardware interrupt event can trigger the DTC to
automatically move data from one location to another in memory for fast
response. This capability is useful in many situations. For example, a frequent
operation in embedded systems is a transfer of consecutive analog-to-digital
(A/D) conversion results to RAM. When the DTC is used to move data from the A/D
to RAM, it eliminates interrupt processing through the CPU, reducing this
operation's execution time significantly.
Highly accurate high-speed on-chip oscillator — The new R8C/Lx series
devices provide a high-speed on-chip oscillator that provides precise clock
signals at 40MHz, 36.864MHz, or 32MHz. Frequency accuracy ranks in the
industry’s top class, with variation limited to ±1% (Target) over standard
operating temperature and voltage. This high-speed internal clock makes it
possible to eliminate the use of an external resonator, reducing overall system
costs.
-
Extensive analog functions — R8C/Lx devices also include functions
such as multiple analog comparator circuits, a power-on reset controller that
supports slow-rising power supplies, an A/D unit with multiple
conversion-result registers and a two-channel D/A converter.
Hardware/software tools
Renesas offers comprehensive system development support for the R8C/Lx
series MCUs. The E8a universal low-cost on-chip debugging emulator aids system
development and can also be used as in-system flash memory programmer. The
Renesas High-performance Embedded Workshop integrated development and debugging
environment includes a complete C/C++ compiler toolchain. (A version of HEW
that can generate up to 64KB of application code is available at no charge.)
Also, the E100 emulator is in development. This powerful in-circuit emulator
will have extensive debugging capabilities and will provide a unified emulation
platform for all Renesas MCUs. Its advanced features, such as drag-and-drop
setting of complex hardware event points and instant filtering of trace data,
will be operated via powerful, yet user-friendly graphical debugging
interfaces.
Price and Availability
N Version (Operating Temperature Range: –20 to 85ºC)
| Group Name |
Type Name |
Flash Memory/
RAM |
Data Flash |
Package
(Size) |
SamplePrice/Availability |
R8C/L3AA
Group |
R5F2L3A7ANFP |
48KB/6KB |
4KB |
100-pin LQFP
(14 mm × 14 mm, 0.50 mm pin pitch) |
$2.5 to 3.7/ Q1 2009
|
| R5F2L3A8ANFP |
64KB/8KB |
4KB |
| R5F2L3AAANFP |
96KB/10KB |
4KB |
| R5F2L3ACANFP |
128KB/10KB |
4KB |
| R5F2L3A7ANFA |
48KB/6KB |
4KB |
100-pin QFP
(14 mm × 20 mm, 0.65 mm pin pitch) |
| R5F2L3A8ANFA |
64KB/8KB |
4KB |
| R5F2L3AAANFA |
96KB/10KB |
4KB |
| R5F2L3ACANFA |
128KB/10KB |
4KB |
R8C/L3AB
Group |
R5F2L3A7BNFP |
48KB/6KB |
- |
100-pin LQFP
(14 mm × 14 mm, 0.50 mm pin pitch) |
| R5F2L3A8BNFP |
64KB/8KB |
- |
| R5F2L3AABNFP |
96KB/10KB |
- |
| R5F2L3ACBNFP |
128KB/10KB |
- |
| R5F2L3A7BNFA |
48KB/6KB |
- |
100-pin QFP
(14 mm × 20 mm, 0.65 mm pin pitch) |
| R5F2L3A8BNFA |
64KB/8KB |
- |
| R5F2L3AABNFA |
96KB/10KB |
- |
| R5F2L3ACBNFA |
128KB/10KB |
- |
R8C/L38A
Group |
R5F2L387ANFP |
48KB/6KB |
4KB |
80-pin LQFP
(12 mm × 12 mm, 0.50 mm pin pitch) |
| R5F2L388ANFP |
64KB/8KB |
4KB |
| R5F2L38AANFP |
96KB/10KB |
4KB |
| R5F2L38CANFP |
128KB/10KB |
4KB |
| R5F2L387ANFA |
48KB/6KB |
4KB |
80-pin LQFP
(14 mm × 14 mm, 0.65 mm pin pitch) |
| R5F2L388ANFA |
64KB/8KB |
4KB |
| R5F2L38AANFA |
96KB/10KB |
4KB |
| R5F2L38CANFA |
128KB/10KB |
4KB |
R8C/L38B
Group |
R5F2L387BNFP |
48KB/6KB |
- |
80-pin LQFP
(12 mm × 12 mm, 0.50 mm pin pitch) |
| R5F2L388BNFP |
64KB/8KB |
- |
| R5F2L38ABNFP |
96KB/10KB |
- |
| R5F2L38CBNFP |
128KB/10KB |
- |
| R5F2L387BNFA |
48KB/6KB |
- |
80-pin LQFP
(14 mm × 14 mm, 0.65 mm pin pitch) |
| R5F2L388BNFA |
64KB/8KB |
- |
| R5F2L38ABNFA |
96KB/10KB |
- |
| R5F2L38CBNFA |
128KB/10KB |
-
|
R8C/L36A
Group |
R5F2L367ANFP |
48KB/6KB |
4KB |
64-pin LQFP
(10 mm × 10 mm, 0.50 mm pin pitch) |
|
| R5F2L368ANFP |
64KB/8KB |
4KB |
| R5F2L36AANFP |
96KB/10KB |
4KB |
| R5F2L36CANFP |
128KB/10KB |
4KB |
| R5F2L367ANFA |
48KB/6KB |
4KB |
64-pin LQFP
(14 mm × 14 mm, 0.80 mm pin pitch) |
| R5F2L368ANFA |
64KB/8KB |
4KB |
| R5F2L36AANFA |
96KB/10KB |
4KB |
| R5F2L36CANFA |
128KB/10KB |
4KB |
R8C/L36B
Group |
R5F2L367BNFP |
48KB/6KB |
- |
64-pin LQFP
(10 mm × 10 mm, 0.50 mm pin pitch) |
| R5F2L368BNFP |
64KB/8KB |
- |
| R5F2L36ABNFP |
96KB/10KB |
- |
| R5F2L36CBNFP |
128KB/10KB |
- |
| R5F2L367BNFA |
48KB/6KB |
- |
64-pin LQFP
(14 mm × 14 mm, 0.80 mm pin pitch) |
| R5F2L368BNFA |
64KB/8KB |
- |
| R5F2L36ABNFA |
96KB/10KB |
- |
| R5F2L36CBNFA |
128KB/10KB |
- |
R8C/L35A
Group |
R5F2L357ANFP |
48KB/6KB |
4KB |
52-pin LQFP
(10 mm × 10 mm, 0.65 mm pin pitch) |
| R5F2L358ANFP |
64KB/8KB |
4KB |
| R5F2L35AANFP |
96KB/10KB |
4KB |
| R5F2L35CANFP |
128KB/10KB |
4KB |
R8C/L35B
Group |
R5F2L357BNFP |
48KB/6KB |
- |
52-pin LQFP
(10 mm × 10 mm, 0.65 mm pin pitch) |
| R5F2L358BNFP |
64KB/8KB |
- |
| R5F2L35ABNFP |
96KB/10KB |
- |
| R5F2L35CBNFP |
128KB/10KB |
- |
About Renesas Technology Corp. Renesas Technology Corp. is one of the
world's leading semiconductor system solutions providers for mobile, automotive
and PC/AV (Audio Visual) markets and the world's No.1 supplier of
microcontrollers. It is also a leading provider of LCD Driver ICs, Smart Card
microcontrollers, RF-ICs, High Power Amplifiers, Mixed Signal ICs,
System-on-Chip (SoC), System-in-Package (SiP) and more. Established in 2003 as
a joint venture between Hitachi, Ltd. (TSE:6501, NYSE:HIT) and Mitsubishi
Electric Corporation (TSE:6503), Renesas Technology achieved consolidated
revenue of 951 billion JPY in FY2007 (end of March 2008). Renesas Technology is
based in Tokyo, Japan and has a global network of manufacturing, design and
sales operations in 17 countries with 26,800 employees worldwide. For further
information, please visit http://www.renesas.com Product names,
company names, or brands mentioned are the property of their respective
owners.
Specifications
| Item |
Specifications of R8C/Lx
series |
| Group name |
R8C/L3AA and R8C/L3AB :100-Pin-Package
Versions R8C/L38A and R8C/L38B :80-Pin-Package Versions R8C/L36A and
R8C/L36B :64-Pin-Package Versions R8C/L35A and R8C/L35B
:52-Pin-Package Versions |
| CPU core |
16-bit CPU core: R8C CPU |
| Maximum operating frequency/power supply
voltage |
20 MHz/2.7 to 5.5 V 5 MHz/1.8 to 5.5 V
|
| Operating temperature range |
-20 to 85ºC (N Version) and -40 to
85ºC (D Version) |
| Flash memory |
48KB |
64KB |
96KB |
128KB |
| Data flash |
1 kbyte × 4 blocks <in R8C/L3xA
only> |
| RAM |
6KB |
8KB |
10KB |
10KB |
| On-chip peripheral functions |
Timers
- 16-bit timer: 4 channels
(input capture/output compare function)
|
| Watchdog timer: 14 bits × 1 channel
(with prescaler) |
| Data transfer controller: 1
channel |
Serial interfaces:
- UART (dual synchronous/asynchronous serial I/O use): 2 channels
- UART (dual synchronous/asynchronous serial I/O use / I2C /
IEBus* / special mode 2 / SIM mode / multiprocessor communication
synchronization): 1 channel
- I2C bus interface / Synchronous Serial Communication Unit: 1
channel
- LIN interface: 1 channel (using 8-bit timer and UART)
|
| LIN interface: 1 channel (using 8-bit
timer and UART) |
| Programmable I/O ports |
| |
Group name |
CMOS I/O ports (pull-up resistor selection
possible) |
Large-current drive ports |
Input ports |
| R8C/L3AA and R8C/L3AB |
88 |
16 |
1 |
| R8C/L38A and R8C/L38B |
68 |
8 |
1 |
| R8C/L36A and R8C/L36B |
52 |
8 |
1 |
| R8C/L35A and R8C/L35B |
41 |
5 |
1 |
| Power-on reset circuit |
| Voltage detection circuit: 3 channels
(detection level selectable for voltage detection 1) |
Oscillation circuit
- Main clock oscillation circuit (with built-in main clock oscillation
stoppage detection function)
- Subclock oscillation circuit (32 kHz) High-speed on-chip oscillator
- Low-speed on-chip oscillator
- Low-power-consumption features (standard mode high-speed clock, low-speed
clock, high-speed on-chip oscillator, low-speed on-chip oscillator& wait
mode, stop mode, power-off mode)
|
| Interrupts |
| Group name |
Interrupt vectors |
External interrupt inputs |
Interrupt priority levels |
| R8C/L3AA and R8C/L3AB |
69 |
16 (INT × 8, key input × 8) |
7 |
| R8C/L38A and R8C/L38B |
69 |
16 (INT × 8, key input × 8) |
7 |
| R8C/L36A and R8C/L36B |
69 |
12 (INT × 8, key input × 4) |
7 |
| R8C/L35A and R8C/L35B |
69 |
9 (INT × 5, key input × 4) |
7 |
| A/D converter |
| Group name |
Bit × channel |
| R8C/L3AA and R8C/L3AB |
10-bit A/D converter × 20 channels, sample &
hold, trace mode |
| R8C/L38A and R8C/L38B |
10-bit A/D converter × 16 channels, sample &
hold, trace mode |
| R8C/L36A and R8C/L36B |
10-bit A/D converter × 12 channels, sample &
hold, trace mode |
| R8C/L35A and R8C/L35B |
10-bit A/D converter × 12 channels, sample &
hold, trace mode |
| 8-bit D/A converter × 2 channels |
| Comparator A: Using 2 voltage detection circuit
channels |
| Comparator B: 2 channels |
LCD drive control circuit
- Bias value : 1/2, 1/3, 1/4(except R8C/L35A and R8C/L35B )
- Duty cycle: static 1/2, 1/3, 1/4, 1/8(except R8C/L35A and R8C/L35B )
- Built-in step-up voltage circuit, Built-in regulator for step-up
voltage circuit
|
| Group name |
Segment output |
Common output |
| R8C/L3AA and R8C/L3AB |
56 (max.) (at 4 common output) |
8 (max.) |
| R8C/L38A and R8C/L38B |
48 (max.) (at 4 common output) |
8 (max.) |
| R8C/L36A and R8C/L36B |
32 (max.) (at 4 common output) |
8 (max.) |
| R8C/L35A and R8C/L35B |
24 (max.) |
4 (max.) |
| Packages |
R8C/L3AA and R8C/L3AB : (1) 100-pin LQFP (14
mm × 14 mm, 0.50 mm pitch) (2) 100-pin QFP (14 mm × 20 mm, 0.65 mm pitch)
R8C/L38A and R8C/L38B : (1) 80-pin LQFP (12 mm × 12 mm, 0.50 mm pin pitch) (2)
80-pin LQFP (14 mm × 14 mm, 0.65 mm pin pitch) R8C/L36A and R8C/L36B: (1)
64-pin LQFP (10 mm × 10 mm, 0.50 mm pin pitch) (2) 64-pin LQFP (14 mm × 14 mm,
0.80 mm pin pitch) R8C/L35A and R8C/L35B : 52-pin LQFP (10 mm × 10 mm, 0.65 mm
pin pitch) |
*IEBus™ (Inter Equipment Bus) is a trademark of NEC Electronics
Corporation
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