ADF7025BCPZ-RL7 Analog Devices Inc, ADF7025BCPZ-RL7 Datasheet - Page 20
ADF7025BCPZ-RL7
Manufacturer Part Number
ADF7025BCPZ-RL7
Description
IC,RF Modulator/Demodulator,LLCC,48PIN,PLASTIC
Manufacturer
Analog Devices Inc
Datasheet
1.ADF7025BCPZ.pdf
(44 pages)
Specifications of ADF7025BCPZ-RL7
Frequency
431MHz ~ 464MHz, 862MHz ~ 870MHz and 902MHz ~ 928MHz
Data Rate - Maximum
384kbps
Modulation Or Protocol
FSK
Applications
Keyless Entery, Home Automation, Wireless Audio/Video
Power - Output
-20dBm ~ 13dBm
Sensitivity
-104dBm
Voltage - Supply
2.3 V ~ 3.6 V
Current - Receiving
19mA
Current - Transmitting
28mA
Data Interface
PCB, Surface Mount
Antenna Connector
PCB, Surface Mount
Operating Temperature
-40°C ~ 85°C
Package / Case
48-LFCSP
Operating Temperature (min)
-40C
Operating Temperature (max)
85C
Operating Temperature Classification
Industrial
Modulation Type
FSK
Product Depth (mm)
7mm
Product Length (mm)
7mm
Operating Supply Voltage (min)
2.3V
Operating Supply Voltage (typ)
2.5/3.3V
Operating Supply Voltage (max)
3.6V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-ADF70XXEKZ1 - KIT DEV ADF702X FOR BF533EZKITEVAL-ADF7025DBZ1 - BOARD EVAL ADF7025 902-928MHZ
Memory Size
-
Lead Free Status / Rohs Status
Compliant
ADF7025
RSSI/AGC
The RSSI is implemented as a successive compression log amp
following the baseband channel filtering. The log amp achieves
±3 dB log linearity. It also doubles as a limiter to convert the
signal-to-digital levels for the FSK demodulator. Offset
correction is achieved using a switched capacitor integrator in
feedback around the log amp. This uses the BB offset clock
divide. The RSSI level is converted for user readback and
digitally controlled AGC by an 80-level (7-bit) flash ADC. This
level can be converted to input power in dBm.
Offset Correction Clock
In Register 3, the user should set the BB offset clock divide bits
R3_DB [4:5] to give an offset clock between 1 MHz and 2 MHz,
where BBOS _CLK [Hz] = XTAL/(BBOS_CLK_DIVIDE).
BBOS_CLK_DIVIDE can be set to 4, 8, or 16.
AGC Information
In Register 9, the user should select automatic gain control by
selecting Auto In R9_DB18 and Auto In R9_DB19. The user
should then program AGC Low Threshold R9_DB [4:10] and
AGC High Threshold R9_DB [11:17]. The default values for the
low and high thresholds are 30 and 70, respectively; however,
these are not the optimum settings for all operating conditions.
The recommended values for the low and high thresholds are
15 and 79, respectively. In the AGC 2 register (Register 10), the
user should program the AGC delay to be long enough to allow
the loop to settle. The default/recommended value is 10.
Thus, in the worst case, if the AGC loop has to go through all five
gain changes, AGC delay = 10, and SEQ_CLK = 200 kHz, then
AGC settling = 10 × 5 µs × 5 = 250 μs. Minimum AGC_Wait_Time
must be at least 25 µs.
AGC Settling = AGC_Wait_Time × Number of Gain Changes
AGC
1
IFWR
_
Wait
CORRECTION
A
OFFSET
IFWR
_
Figure 28. RSSI Block Diagram
Time
A
R
IFWR
=
A
AGC
IFWR
_
DELAY
LATCH
CLK
×
XTAL
SEQ
FSK
DEMOD
ADC
_
CLK
RSSI
DEMOD
_
DIVIDE
Rev. A | Page 20 of 44
RSSI Formula (Converting to dBm)
where:
Readback_Code is given by Bit RV7 to Bit RV1 in the readback
register (see the Readback Format section).
Gain_Mode_Correction is given by the values in Table 5.
LNA gain and filter gain (LG2/LG1, FG2/FG1) are also
obtained from the readback register.
Table 5. Gain Mode Correction
LNA Gain
(LG2, LG1)
H (11)
M (10)
M (10)
M (10)
L (01)
EL (00)
These numbers are for an unmodulated tone. For a modulated
signal, the RSSI readback may have to be adjusted to get the
required accuracy. An additional factor should also be
introduced to account for losses in the front-end matching
network/antenna.
FSK DEMODULATORS ON THE ADF7025
The two FSK demodulators on the ADF7025 are
• FSK correlator/demodulator
• Linear demodulator
Select these using the Demod Select Bits R4_DB [4:5].
FSK CORRELATOR/DEMODULATOR
The quadrature outputs of the IF filter are first limited and then
fed to a pair of digital frequency correlators that perform band-
pass filtering of the binary FSK frequencies at (IF + F
(IF − F
from each of the two correlators. The performance of this
frequency discriminator approximates that of a matched filter
detector, which is known to provide optimum detection in the
presence of AWGN.
LIMITERS
Q
I
Input_Power [dBm] = −98 dBm + (Readback_Code +
DEV
Gain_Mode_Correction ) × 0.5
FREQUENCY CORRELATOR
DB(4:13)
Figure 29. FSK Correlator/Demodulator Block Diagram
). Data is recovered by comparing the output levels
– F
DEV
DB(14)
Filter Gain
(FG2, FG1)
H (10)
H (10)
M (01)
L (00)
L (00)
L (00)
0
+ F
DEV
Gain Mode Correction
0
17
53
65
90
113
0
SLICER
+
–
DB(8:15)
DEV
Rx DATA
Rx CLK
) and
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