English
Language : 

GP2010 Datasheet, PDF (6/24 Pages) Mitel Networks Corporation – GPS Receiver RF Front End
GP2010
PIN DESCRIPTIONS
All VEE and VCC/VDD pins should be connected to ensure reliable operation
Pin No.
1
2
3
4,6
5
7
8
9
10
11
12
13
14
15
16
Signal Name
IFOutput
Input/Output
Output
PLL Filt1
Output
PLL Filt2
Output
VEE (OSC)
VCC (OSC)
VEE (REG)
PRef
Input
Input
Input
Input
PReset
Output
VEE (IO)
CLK
Input
Input
MAG
Output
SIGN
Output
OPClk-
Output
OPClk+
Output
VDD (IO)
Input
Description
IF Test output.
Connected to output of Stage 3 prior to the A to D converter.
A series 1kΩ resistor is incorporated for buffering purposes.
PLL Filter 1.
Connected to the bias network within the on-chip VCO. An
external PLL loop filter network should be connected between
this pin and PLL Filt 2 (see below).
PLL Filter 2.
Connected to the varactor diodes within the on-chip VCO. An
external PLL loop filter network should be connected between
this pin and PLL Filt 1 (see above).
Negative supply to the on-chip VCO. (See Note 1)
Positive supply to the on-chip VCO.
Negative supply to the VCO regulator.
This must be connected to GND.
Power-on Reset Reference input.
An on-chip comparator produces a logic HI when the PRef
input voltage exceeds +1.21V. (Nom) (See Page 3).
Power-on Reset Output.
A TTL compatible output controlled by the Power-on reset
comparator (See above). This output remains active even
when the chip is powered down. (See pin 17 - PDn).
Negative supply to the Digital Interface. (See Note 2)
Sample Clock input from the correlator chip.
A TTL compatible input (which operates at 5.714MHz if used
with GP2021 correlator device) used to clock the MAG & SIGN
output latches, on the rising edge of the CLK signal.
Magnitude bit data output.
A TTL compatible signal, representing the magnitude of the
mixed down IF signal. Derived from the on-chip 2-bit A to D
converter, synchronised to the CLK input clock signal.
Sign bit data output.
A TTL compatible signal, representing the polarity of the mixed
down IF signal. Derived from the on-chip 2-bit A to D converter,
synchronised to the CLK input clock signal.
40MHz Clock output - inverse phase.
One side of a balanced differential output clock, with opposite
polarity to Pin 15 - OPClk+. Used to drive a master-clock signal
within the correlator chip.
40MHz Clock output - true phase.
Other side of a balanced differential output clock set, with
opposite polarity to Pin 14 - OPClk-. Used to drive a master-
clock signal within the correlator chip.
Positive supply to the Digital Interface. (See Note 2)
6