MAX7030HATJ+ Maxim Integrated Products, MAX7030HATJ+ Datasheet - Page 12
MAX7030HATJ+
Manufacturer Part Number
MAX7030HATJ+
Description
RF Receiver IC TRANSCVR ASK 5MHz, and 433.92MHz
Manufacturer
Maxim Integrated Products
Type
Transceiverr
Datasheet
1.MAX7030HATJ.pdf
(20 pages)
Specifications of MAX7030HATJ+
Package / Case
TQFN-32 EP
Operating Frequency
433.92 MHz
Operating Supply Voltage
2.7 V, 5 V
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX7030 315MHz, 345MHz, and 433.92MHz
CMOS transceiver and a few external components pro-
vide a complete transmit and receive chain from the
antenna to the digital data interface. This device is
designed for transmitting and receiving ASK data. All
transmit frequencies are generated by a fractional-N-
based synthesizer, allowing for very fine frequency
steps in increments of f
generated by a traditional integer-N-based synthesizer.
Depending on component selection, data rates as high
as 33kbps (Manchester encoded) or 66kbps (NRZ
encoded) can be achieved.
The LNA is a cascode amplifier with off-chip inductive
degeneration that achieves approximately 30dB of volt-
age gain that is dependent on both the antenna-match-
ing network at the LNA input and the LC tank network
between the LNA output and the mixer inputs.
The off-chip inductive degeneration is achieved by
connecting an inductor from LNASRC to GND. This
inductor sets the real part of the input impedance at
LNAIN, allowing for a more flexible match for low-input
impedances such as a PCB trace antenna. A nominal
value for this inductor with a 50Ω input impedance is
12nH at 315MHz and 10nH at 434MHz, but the induc-
tance is affected by PCB trace length. LNASRC can be
shorted to ground to increase sensitivity by approxi-
mately 1dB, but the input match must then be reopti-
mized.
Low-Cost, 315MHz, 345MHz, and 433.92MHz
ASK Transceiver with Fractional-N PLL
12
PIN
______________________________________________________________________________________
28
29
30
31
32
—
NAME
XTAL1
XTAL2
AGC2
AGC1
AGC0
EP
Detailed Description
XTAL
AGC Enable/Dwell Time Control 2 (MSB). See Table 1. Bypass to GND with a 10pF capacitor.
AGC Enable/Dwell Time Control 1. See Table 1. Bypass to GND with a 10pF capacitor.
AGC Enable/Dwell Time Control 0 (LSB). See Table 1. Bypass to GND with a 10pF capacitor.
Crystal Input 1. Bypass to GND if XTAL2 is driven by an AC-coupled external reference.
Crystal Input 2. XTAL2 can be driven from an external AC-coupled reference.
Exposed Pad. Solder evenly to the board’s ground plane for proper operation.
Low-Noise Amplifier (LNA)
/4096. The receive LO is
Receiver
The LC tank filter connected to LNAOUT consists of L5
and C9 (see the Typical Application Circuit ). Select L5
and C9 to resonate at the desired RF input frequency.
The resonant frequency is given by:
where L
C
L
capacitance of the PCB traces, package pins, mixer-
input impedance, LNA-output impedance, etc. These
parasitics at high frequencies cannot be ignored, and
can have a dramatic effect on the tank filter center fre-
quency. Lab experimentation should be done to opti-
mize the center frequency of the tank. The total
parasitic capacitance is generally between 5pF and
7pF.
When the AGC is enabled, it monitors the RSSI output.
When the RSSI output reaches 1.28V, which corre-
sponds to an RF input level of approximately -55dBm,
the AGC switches on the LNA gain-reduction attenua-
tor. The attenuator reduces the LNA gain by 36dB,
thereby reducing the RSSI output by about 540mV to
740mV. The LNA resumes high-gain mode when the
RSSI output level drops back below 680mV (approxi-
mately -59dBm at the RF input) for a programmable
interval called the AGC dwell time (see Table 1). The
AGC has a hysteresis of approximately 4dB. With the
AGC function, the RSSI dynamic range is increased,
allowing the MAX7030 to reliably produce an ASK out-
put for RF input levels up to 0dBm with a modulation
depth of 18dB. AGC is not required and can be dis-
abled (see Table 1).
PARASITICS
PARASITICS
FUNCTION
TOTAL
Pin Description (continued)
.
and C
= L5 + L
f
=
2π
PARASITICS
L
Automatic Gain Control (AGC)
TOTAL
PARASITICS
1
×
include inductance and
C
TOTAL
and C
TOTAL
= C9 +
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