MAX2420/MAX2421/MAX2422/MAX2460/MAX2463
900MHz Image-Reject Transceivers
8 _______________________________________________________________________________________
Pin Description
Supply Voltage Input for Receive Low-Noise Amplifier. Bypass with a 47pF low-inductance capacitor to
GND (pin 7 if possible).
6
Receiver RF Input, single-ended. The input match shown in Figure 1 maintains an input VSWR of better
than 2:1 from 902MHz to 928MHz.
5
Transmit Gain-Control Input. Connect to V
CC
for highest gain and best temperature stability. When
driven with a control voltage, the IF buffer gain can be adjusted over a 36dB range (see Typical
Operating Characteristics).
4
V
CC
RXIN
TXGAIN
Prescaler/Oscillator Buffer Output. In divide-by-64/65 mode (DIV1 = low), the output level is 500mVp-p
into a high-impedance load. In divide-by-1 mode (DIV1 = high), this output delivers -8dBm into a 50Ω
load. AC couple to this pin.
21
Transmit Bias Compensation Pin. Bypass with a 47pF low-inductance capacitor and 0.01µF to GND.
Do not make any other connections to this pin.
14
No Connect. Not internally connected.13
Ground connection for the Prescaler. Tie PREGND to ground for normal operation. Leave floating to
disable the prescaler and the output buffer. Tie MOD and DIV1 to ground and leave PREOUT floating
when disabling the prescaler.
CAP2
N.C.
Transmitter IF Input, 330Ω, single-ended. AC couple to this pin.12
Single-Ended, 330Ω IF Output. AC couple to this pin. 3
Receive Bias Compensation Pin. Bypass with a 47pF low-inductance capacitor and 0.01µF to GND.
Do not make any other connections to this pin.
2
Supply-Voltage Input for Master Bias Cell. Bypass with a 47pF low-inductance capacitor and 0.1µF to
GND (pin 28, if possible).
1
FUNCTIONPIN
Low-Noise Amplifier Gain-Control Input. Drive this pin high for maximum gain. When LNAGAIN is pulled
low, the LNA is capacitively bypassed and the supply current is reduced by 4.5mA. This pin can also be
driven with an analog voltage to adjust the LNA gain in intermediate states. Refer to the Receiver Gain
vs. LNAGAIN Voltage graph in the Typical Operating Characteristics, as well as Table 1.
10
PA Predriver Output. See Figure 1 for an example matching network, which provides better than 2:1
VSWR from 902MHz to 928MHz.
9
TXIN
LNAGAIN
TXOUT
Ground Connection for Receive Low-Noise Amplifier7 GND
RXOUT
CAP1
V
CC
NAME
Ground Connection for Signal-Path Blocks, except LNA8 GND
Supply Voltage Input for Signal-Path Blocks, except LNA. Bypass with a 47pF low-inductance capacitor
and 0.01µF to GND (pin 8, if possible).
11 V
CC
20
PREOUT
PREGND
Modulus Control for the Divide-by-64/65 Prescaler: high = divide-by-64, low = divide-by-65. Note that
the DIV1 pin must be at logic low when using the prescaler mode.
19
Driving VCOON with a logic high turns on the VCO, phase shifters, VCO buffers, and prescaler. The
prescaler can be selectively disabled by floating the PREGND pin.
17
Driving RXON with a logic high enables the LNA, receive mixer, and IF output buffer. VCOON must also
be high.
16
MOD
VCOON
RXON
Driving TXON with a logic high enables the transmit IF variable-gain amplifier, upconverter mixer, and PA
predriver. VCOON must also be high.
15 TXON
Driving DIV1 with a logic high disables the divide-by-64/65 prescaler and connects the PREOUT pin
directly to an oscillator buffer amplifier, which outputs -8dBm into a 50Ω load. Tie DIV1 low for divide-by-
64/65 operation. Pull this pin low when in shutdown to minimize off current.
18 DIV1