User Manual
Rev. 1.22
CC1000PP Plug and Play Module
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Introduction
The CC1000 is a very flexible and feature-rich single-chip very low-power RF transceiver.
Chipcon has designed the CC1000PP plug-and-play module to serve as a reference layout
and enable very quick prototyping of an RF system.
The tiny CC1000PP module (28x20 mm) contains all RF components required for proper
operation. This includes all the components mentioned in the CC1000 application circuit (see
datasheet for details), as well as a reference crystal and a LC output filter. The layout is
based on a standard, inexpensive 2-layer 1.6mm thick FR-4 PCB process, and has been
carefully optimised by Chipcon. Components are mounted on one side only, the component
side is used for signal routing, and the “solder” (reverse) side is used for a ground plane.
The CC1000PP layout can easily be used as a reference layout by importing it into a PCB
CAD program. Chipcon provides the layout in the industry-standard Gerber format. To
download the files, please visit the Chipcon web site.
As the CC1000PP module contains only the components required for operation, the layout
does not require major modifications when used to make a custom PCB, the user can merely
delete the connector pins at each end of the module. But it is very important that the
component placement, routing and vias are not altered if the same performance is to be
achieved.
If a four layer PCB is to be used, either the two top layers should be used for the RF part, or
layer 1 and 4. Layer 4 should then be the ground plane and layers 2 and 3 should be masked
off.
In a ready-built form, the CC1000PP is ideal for quick prototyping. The module may be
connected to a prototyping board or PCB containing the rest of the system. The CC1000 can
in this way be tested in a complete system without having to create a custom RF PCB layout.
Full documentation is provided for this module, including schematics and PCB layout. This
information can be downloaded from Chipcon’s web site.
Typical performance
The table below shows typical performance at 3 V / 25°C.
Parameter
CC1000PP-433
CC1000PP-868
Unit
433 MHz
-111
8
868 MHz
-107
2.5
915 MHz
-105
Sensitivity, 2.4 kBaud
Output power, max
RF frequency accuracy
LO leakage
2nd harmonic
3rd harmonic
dBm
dBm
ppm
dBm
dBm
dBm
mA
0.5
± 10
-68
± 10
-62
± 10
-59
<-36
<-30
24
<-30
<-30
23
<-40 dBc
<-40 dBc
23
Current consumption, TX
Current consumption, RX
Current consumption, PD
9.7
11.7
100
11.7
mA
100
100
nA
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Mechanical dimensions and component placement
The CC1000PP module measures 28x20mm, and has been designed for a two-sided 1.6mm
thick PCB using industry-standard FR-4 board material. Components are mounted on only
one side, and the result is a very small, inexpensive module that can satisfy regulation
requirements.
On each end of the board are connectors for interfacing the module to an external system. An
external antenna, and a 2.1-3.6V power supply should be connected to the top connector
(P2). The RSSI/IF signal can also be accessed via this connector. The lower connector (P1)
can be used to connect an external micro-controller to the data- and configuration interface of
the CC1000.
Figure 1. Mechanical drawing of CC1000PP module (not to scale)
To ensure optimum RF performance, an external antenna should be soldered directly to the
antenna terminals, or a 50 Ohm microstrip line should be used from the antenna terminal to
the external antenna connector. For applications not demanding optimum RF performance, a
pin-row connector may be used to connect the antenna signal to another PCB, but be aware
that this can lead to non-optimal sensitivity and output power, and that measurements using
this arrangement should not be used to characterise the RF performance of CC1000. For
more information on antennas, please see Chipcon application note AN003.
Circuit diagram
The circuit diagram of the CC1000PP is shown below. There are two versions of the
CC1000PP module, the CC1000PP-433 for 433 MHz operation, and the CC1000PP-868 for
operation in the 868 MHz and 902-928 MHz bands. Since the 868 version covers both the
European 868 MHz band and the US 902-928 MHz band, one system can be used in both
Europe and the US using the same hardware, changing the frequency by software control.
The circuit is similar to the application circuit shown in the CC1000 data sheet, with an added
LC filter to reduce emitted harmonics.
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The value of the matching components, the VCO inductor and the LC filter will depend on the
operating frequency. Bills of materials are supplied for both versions. For operating
frequencies other than those listed here, please use the latest version of SmartRF® Studio to
calculate the component values.
Pinouts for the connectors are given in the table below. The position of pin number 1 is
indicated on the top silkscreen of the PCB. An abbreviated description of the pin functions of
P1 is also printed on the silkscreen.
P1
Function
PALE
P2
Function
GND
Pin
1
Pin
1
2
PDATA
PCLK
2
ANTENNA
GND
3
3
4
DCLK
4
VDD (2.1 – 3.6 V)
RSSI / IF
GND
5
DIO
5
6
CHP_OUT / LOCK
6
Table 1. Connector pinouts
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Figure 2. Schematic for 433 MHz version
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Figure 3. Schematic for 868/915 MHz version
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Layout
RF circuits working at high frequencies are very sensitive to the physical layout of the PCB.
Chipcon has carefully optimised the layout of the CC1000PP in order to provide good RF
performance. Chipcon strongly recommends that you use this layout as it is, and that you do
not attempt to modify it.
LO leakage is a critical parameter. To meet the ETSI requirement of –57 dBm, coupling from
the VCO to the antenna or the matching network must be carefully controlled. The VCO
inductor must be of the specified type and be mounted with the correct alignment if LO
leakage is to meet specifications. The L101 VCO inductor should be oriented with the thick
white stripe facing the crystal. To prevent coupling via the power supply, the specified
decoupling capacitors must be mounted as shown.
Figure 4. Top and bottom PCB layout, top silkscreen
Antennas
The CC1000PP can be used together with any type of single-sided antenna. Loop antennas
can also be used by grounding one side. If the antenna’s impedance is not close to 50 ohms,
matching components should be used to match it to 50 ohms. A quarter-wave wire antenna
can be used directly by removing pins 1, 2 and 3 from P2 and soldering in a piece of wire of
the correct length (one quarter wavelength).
Frequency
433 MHz
868 MHz
915 MHz
¼ wavelength
16.4 cm
8.2 cm
7.8 cm
Table 2: 1/4 wavelength for common frequencies
For more information about antennas, please see application note AN003.
Bill of materials
The CC1000 is designed to be used together with low cost passive components. The
components specified for the CC1000PP are the same as those listed in the data sheet. The
only critical component is the VCO inductor, which must be the exact type listed in order for
LO leakage to meet specifications. All other capacitors and inductors are non-critical, and any
manufacturer or type may be used as long as they match the specifications in the component
list. The boards manufactured by Chipcon uses Coilcraft HQ-series inductors, some of the
inductor values may not be available from all manufacturers. Substituting nearby values may
be possible.
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Bill of materials, CC1000PP-433
CC1000PP-433
Reference
Description
Value /
Part
tolerance
C1
Capacitor, tantal
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
C_3U3_TAN_B
3.3µF
C6
33nF, 10%
12pF, 5%
220pF, 5%
1nF, 10%
C_33N_0603_X7R_K_25
C_12P_0603_NP0_J_50
C_220P_0603_NP0_J_50
C_1N0_0603_X7R_K_50
No Not Mount
C10
C11
C12
C13
C14
C31
C41
Capacitor 0603, general
Capacitor 0603
68pF, 5%
15pF, 5%
C_68P_0603_NP0_J_50
C_15P_0603_NP0_J_50
C_8P2_0603_NP0_C_50
Capacitor 0603
Capacitor 0603
8.2pF,
±0.25pF
C42
Capacitor 0603
5.6pF,
C_5P2_0603_NP0_C_50
±0.25pF
C71
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Inductor 0805
Inductor 0805
Inductor 0805
Inductor 0805
22pF, 5%
15pF, 5%
18pF, 5%
22pF, 5%
1.0nF, 10%
1.0nF, 10%
68nH, 5%
6.2nH, 5%
10nH, 5%
33nH, 5%
C_22P_0603_NP0_J_50
C_15P_0603_NP0_J_50
C_18P_0603_NP0_J_50
C_22P_0603_NP0_J_50
C_1N0_0603_X7R_K_50
C_1N0_0603_X7R_K_50
L_68N_0805_J
C72
C171
C181
C210
C281
L32
L41
L_6N2_0805_J
L71
L_10N_0805_J
L101
L_33N_0805_J KOA
KL732ATE33NJ
L210
P1
EMI filter bead
BLM18HG102SN1D, Murata
CON6_MALE
Pin-row connector
Pin-row connector
Resistor 0603
P2
CON6_MALE
R131
R281
U1
R_82K_0603_F
R_27K_0603_G
CC1000
82kΩ, 1%
Resistor 0603
27kΩ, 2%
Single chip transceiver
Crystal, HC49-SMD
X1
X14.7456MHz 10/10/10/16,
(16pF load)
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Bill of materials, CC1000PP-868
CC1000PP-868
Value
Reference
C1
Description
Part
Capacitor, tantal
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Capacitor 0603
Inductor 0805
Inductor 0805
Inductor 0805
Inductor 0805
C_3U3_TAN_B
3.3µF
C6
33nF, 10%
12pF, 5%
C_33N_0603_X7R_K_25
C_12P_0603_NP0_J_50
Do not mount
C10
C11
C12
C13
C14
C31
C41
C42
C71
C72
C171
C181
C210
C281
L32
1nF, 10%
C_1N0_0603_X7R_K_50
C_330P_0603_NP0_J_50
C_8P2_0603_NP0_C_50
C_10P_0603_NP0_J_50
Do not mount
330pF, 5%
8.2pF, ±0.25pF
10pF, 5%
C_4P7_0603_NP0_C_50
C_8P2_0603_NP0_C_50
C_6P8_0603_NP0_C_50
C_18P_0603_NP0_J_50
C_22P_0603_NP0_J_50
Do not mount
4.7pF, ±0.25pF
8.2pF, ±0.25pF
6.8pF, ±0.25pF
18pF, 5%
22pF, 5%
1nF, 10%
120nF, 5%
2.5nH, 5%
5.6nH, 5%
4.7nH, 5%
C_1N0_0603_X7R_K_50
L_120N_0805_J
L41
L_2N5_0805_J
L71
L_5N6_0805_J
L101
L_4N7_0805_J, KOA
KL732ATE4N7C
L210
P1
EMI filter bead
Pin-row connector
Pin-row connector
Resistor 0603
BLM18HG102SN1D, Murata
CON6_MALE
P2
CON6_MALE
R131
R281
U1
R_82K_0603_F
R_27K_0603_G
CC1000
82kΩ, 1%
Resistor 0603
27kΩ, 2%
Single chip
transceiver
X1
Crystal, HC49-SMD
X14.7456MHz 10/10/10/16,
(16pF load)
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Disclaimer
Chipcon AS believes the furnished information is correct and accurate at the time of this printing. However, Chipcon
AS reserves the right to make changes to this product without notice. Chipcon AS does not assume any responsibility
for the use of the described information. Please refer to Chipcon’s web site for the latest update.
General Information
Chipcon AS believes the furnished information is correct and accurate at the time of this printing. However, Chipcon
AS reserves the right to make changes to this product without notice. Chipcon AS does not assume any responsibility
for the use of the described product. Please refer to Chipcon’s web site for the latest update.
SmartRF® is a registered trademark of Chipcon AS. SmartRF® is Chipcon's RF technology platform with RF library
cells, modules and design expertise. Based on SmartRF® Chipcon develops standard component RF-circuits as well
as full custom ASICs based on customers' requirements.
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