CC400 PDF даташит
Спецификация CC400 изготовлена «Chipcon» и имеет функцию, называемую «Single Chip High Performance RF Reansceiver». |
|
Детали детали
Номер произв | CC400 |
Описание | Single Chip High Performance RF Reansceiver |
Производители | Chipcon |
логотип |
27 Pages
No Preview Available ! |
SmartRF ® CC400
CC400
Single Chip High Performance RF Transceiver
Applications
• UHF wireless data transmitters and
receivers
• Wireless alarm and security systems
• 315 / 426 / 429 / 433 MHz ISM/SRD
band systems
• Point of sale terminals
Product Description
CC400 is a single-chip high performance,
half-duplex, FSK, UHF transceiver
designed for low power and low-voltage
wireless applications. The circuit is mainly
intended for the ISM (Industrial, Scientific
and Medical) frequency bands at 315, 418
and 433 MHz, but can easily be
programmed for operation at other
frequency bands in the 300 - 500 MHz
range.
The main operating parameters of CC400
can be programmed via a serial interface,
thus making CC400 a very flexible and
easy to use component. In a typical
system CC400 will be used together with a
microcontroller and a few external passive
components.
• Remote control systems
• Home security and automation
• Low power telemetry
• AMR – Automatic Meter Reading
• Environmental control
CC400 is based on Chipcon’s SmartRF®
technology.
Features
• Single chip RF transceiver
• Frequency range 300 – 500 MHz
• High sensitivity (typical -112 dBm)
• Programmable output power up to 25
mW (14 dBm)
• Small size (SSOP-28 package)
• Low supply voltage (2.7 V to 3.3 V)
• Very few external components required
• FSK modulation
• Very low phase noise
• Data-rate up to 9.6 kbit/s
• Suitable for both narrow and wide band
systems
• Suitable for frequency hopping
protocols
• Frequency-Lock indicator
• Development kit available
• Easy-to-use software (SmartRF Studio)
for generating the CC400 configuration
data
Chipcon reserves the right to make changes at any time without notice in order to improve design and supply the best
possible product.
Chipcon AS
SmartRFTM CC400
Datasheet (rev. 3.1) 2003-11-12
Page 1 of 27
No Preview Available ! |
SmartRF ® CC400
Pin Assignment
Pin no.
1
2
3
Pin name
AVDD
AGND
AGND
4 AGND
5 RF_IN
6 RF_OUT
7 AVDD
8 AVDD
9 VCO_IN
10 AGND
11 AGND
12 CHP_OUT
13 AVDD
14 AVDD
15 XOSC_Q1
16 XOSC_Q2
17 AGND
18 DGND
19 LOCK
20 DGND
21 DVDD
22 DVDD
23 DIO
24 CLOCK
25 PDATA
26 STROBE
27 IF_IN
28 IF_OUT
A=Analog, D=Digital
Pin type
Power (A)
Ground (A)
Ground (A)
Ground (A)
RF Input
RF output
Power (A)
Power (A)
Analog input
Ground (A)
Ground (A)
Analog output
Power (A)
Power (A)
Analog input
Analog output
Ground (A)
Ground (D)
Digital output
Ground (D)
Power (D)
Power (D)
Digital
input/output
directional)
Digital input
(bi-
Description
Power supply (3V) for analog modules (Mixer, IF, demodulator)
Ground connection (0V) for analog modules (substrate)
Ground connection (0V) for analog modules (Mixer, IF,
demodulator)
Ground connection (0V) for analog modules (LNA and PA)
RF signal input from antenna (external ac-coupling)
RF signal output to antenna (external bias)
Power supply (3V) for analog modules (LNA and PA)
Power supply (3V) for analog modules (VCO)
External VCO-tank input
Ground connection (0V) for analog modules (VCO)
Ground connection (0V) for analog modules (Prescaler)
Charge pump current output
Power supply (3V) for analog modules (Prescaler)
Power supply (3V) for analog modules (XOSC)
Crystal, pin 1, or external clock input
Crystal, pin 2
Ground connection (0V) for analog modules (XOSC)
Ground connection (0V) for digital modules (substrate)
PLL Lock Indicator. Output is high when PLL is in lock. Please
refer to chapter “PLL Lock Indicator” on page 16 for a further
description.
Ground connection (0V) for digital modules (Digital)
Power supply (3V) for digital modules (Digital)
Power supply (3V) for digital modules (Guard)
Data input in transmit mode
Demodulator output in receive mode
Programming clock for 3-wire bus
Digital input
Programming data for 3-wire bus
Digital input
Programming strobe (Load) for 3-wire bus
Analog input
Analog output
Input to IF chain (from external ceramic filter). The input
impedance is 1.5 kΩ so a direct connection to an external ceramic
filter is possible
Output from first amplifier in IF-chain (to external ceramic filter).
The output impedance is 1.5 kΩ so a direct connection to an
external ceramic filter is possible
(Top view)
AVDD
1
AGND
2
AGND
3
AGND
4
RF_IN
5
RF_OUT 6
AVDD
7
AVDD
8
VCO_IN 9
AGND
10
AGND
11
CHP_OUT 12
AVDD
13
AVDD
14
28 IF_OUT
27 IF_IN
26 STROBE
25 PDATA
24 CLOCK
23 DIO
22 DVDD
21 DVDD
20 DGND
19 LOCK
18 DGND
17 AGND
16 XOSC_Q2
15 XOSC_Q1
Chipcon AS
SmartRFTM CC400
Datasheet (rev. 3.1) 2003-11-12
Page 2 of 27
No Preview Available ! |
SmartRF ® CC400
Absolute Maximum Ratings
Parameter
Supply voltage, VDD
Voltage on any pin
Min.
-0.3
-0.3
Input RF level
Storage temperature range
Operating ambient temperature
range
Lead temperature
-50
-30
Under no circumstances the absolute
maximum ratings given above should be
violated. Stress exceeding one or more of
Max.
7.0
VDD+0.3,
max 7.0
10
150
85
Units
V
V
dBm
°C
°C
Condition
260 °C
T = 10 s
the limiting values may cause permanent
damage to the device.
Caution! ESD sensitive device.
Precaution should be used when handling
the device in order to prevent permanent
damage.
Electrical Specifications
Parameter
Min. Typ. Max.
Overall
RF Frequency Range
Transmit Section
Transmit data rate
300 315 500
418
433.92
0.3 2.4 9.6
Binary FSK frequency separation
0
10 200
Programmable output power
RF output impedance
Harmonics
-5 14
400 Ω ||
3 pF
-30
Unit Condition
MHz Programmable in steps of 250 Hz
kbit/s
kHz
dBm
Manchester code is required.
(9.6 kbit/s equals 19.2 kBaud
using Manchester code)
The frequency corresponding to
the digital "0" is denoted f0, while
f1 corresponds to a digital "1".
The frequency separation is f1-f0.
The RF carrier frequency, fc, is
then given by fc=(f0+f1)/2.
(The frequency deviation is given
by fd=+/-(f1-f0)/2 )
The frequency separation is
programmable in steps of 1 kHz.
Delivered to matched load.
The output power is
programmable in steps of 1 dB.
Transmit mode, parallel
equivalent. For matching details
see “Input/ output matching” p.13.
dBc When using high output power
levels an external LC or SAW
filter may be used to reduce
harmonics emission to comply
with ISM requirements. See p. 14.
Chipcon AS
SmartRFTM CC400
Datasheet (rev. 3.1) 2003-11-12
Page 3 of 27
Скачать PDF:
[ CC400.PDF Даташит ]
Номер в каталоге | Описание | Производители |
CC400 | Single Chip High Performance RF Reansceiver | Chipcon |
CC4000-TC6000GN | GNS GPS Module (Rev. A) | Texas Instruments |
CC4017 | Decimal counter / pulse distributor | McuLIB |
CC4053 | TRIPLE 2-CHANNEL ANALOG MULTIPLEXER/DEMULTIPLEXER | Ling Electronics |
Номер в каталоге | Описание | Производители |
TL431 | 100 мА, регулируемый прецизионный шунтирующий регулятор |
Unisonic Technologies |
IRF840 | 8 А, 500 В, N-канальный МОП-транзистор |
Vishay |
LM317 | Линейный стабилизатор напряжения, 1,5 А |
STMicroelectronics |
DataSheet26.com | 2020 | Контакты | Поиск |