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PDF UMA1014 Data sheet ( Hoja de datos )
| Número de pieza | UMA1014 | |
| Descripción | Low-power frequency synthesizer for mobile radio communications | |
| Fabricantes | NXP Semiconductors | |
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INTEGRATED CIRCUITS
DATA SHEET
UMA1014
Low-power frequency synthesizer
for mobile radio communications
Product specification
Supersedes data of October 1991
File under Integrated circuits, IC03
October 1992
1 page  
Philips Semiconductors
Low-power frequency synthesizer for
mobile radio communications
Product specification
UMA1014
FUNCTIONAL DESCRIPTION
The UMA1014 is a low-power frequency synthesizer for
radio communication which operates in the
50 to 1100 MHz range. The device includes an
oscillator/buffer circuit, a reference divider, an RF divider,
a 3-state phase comparator, a charge pump and a main
control circuit to transfer the serial data into the four
internal 8-bit registers. The VCC supply feeds the logic part,
the VCP supply feeds the charge-pump only. Both supplies
are +5 V (±10%). The power-down facility puts the
synthesizer in the idle mode (all current supplies are
switched off except in the control part). This allows any I2C
transfer and all information in the registers is retained thus
enabling fast power-up.
Main divider
The main divider is a pulse swallow type counter which is
fully programmable. After a sensitive input amplifier
(50 mV, −13 dBm), the RF signal is applied to a 31/32
duo-modulus counter. The output is then used as the clock
for the 5-bit swallow counter R = (MD4 to MD0) and the
13-bit main counter N = (MD17 to MD5). The ratio is
transferred via the I2C-bus to the registers B, C and D, and
then buffered in an 18-bit latch. The ratio in the divider
chain is updated with the new information when the least
significant bit is received (i.e. D0). This update is
synchronized to the output of the divider in order to limit the
phase error during small jumps of the synthesized
frequency.
The main divider can be programmed to any value
between 2048 and 262143 (i.e. 218 −1). If ratio X, below
2048, is sent to the divider, the ratio (X + 2048) will be
programmed. When it is required to switch between
adjacent channels it is possible to program register D only,
thus allowing shorter I2C programming time.
Oscillator
The oscillator is a common collector Colpitts type with
external capacitive feedback. The oscillator has very small
temperature drift and high voltage supply rejection. A
TCXO or other type of clock can be used to drive the
oscillator by connecting the source (preferably
AC-coupled) to pin 1 and leaving pin 2 open-circuit. The
oscillator acts as a buffer in this mode and requires no
additional external components. The signal from the clock
source should have a minimum space width of 31 ns.
Reference divider
The reference divider is semi-programmable with 16
division ratios which can be selected via the I2C-bus. The
programming uses four bits of the register A (A3 to A0) as
listed in Table 2. These ratios allow the use of a large
number of crystal frequencies from 3 MHz up to 16 MHz.
All main channel spacings can be obtained with a single
crystal/TXCO frequency of 9.6 MHz.
Phase comparator
A diagram of the phase comparator and charge pump is
illustrated in Fig.3.
The phase comparator is both a phase and frequency
detector. The detector comprises dual flip-flops together
with logic circuitry to eliminate the dead-zone. When a
phase error is detected the UP or DOWN signal goes
HIGH. This switches on the corresponding current
generator which produces a source or sink current for the
loop filter. When no phase error is detected PCD goes high
impedance. The final tuning voltage for the VCO is
provided by the loop filter. The charge pump current is
programmable via the I2C-bus. When IPCD (bit 5) is set to
logic 1 the charge pump delivers 1 mA; when IPCD is set
to logic 0 the charge pump delivers 0.5 mA.
The phase comparator has a phase inverter logic input
(PHI). This allows the use of inverted or non-inverted loop
filter configurations. It is thus possible to use a passive
loop filter which offers higher performances without an
operational amplifier. The function of the phase
comparator is given in Table 3 and a typical transfer curve
is illustrated in Fig.4.
Out-of-lock detector
An out-of-lock detector using the UP and DOWN signals
from the phase comparator is included on-chip. The pin
VCOA is an open collector output which is forced LOW
during an out-of-lock condition. The same information is
also available via the I2C-bus in the status register (bit
OOL). When the phase error (measured at the phase
comparator) is greater than approximately 200 ns, an
out-of-lock condition is immediately flagged. The flag is
only released after 6 reference cycles when the phase
error is less than 200 ns.
October 1992
5
5 Page 
Philips Semiconductors
Low-power frequency synthesizer for
mobile radio communications
Product specification
UMA1014
SYMBOL
PARAMETER
CONDITIONS
MIN.
TYP.
Serial clock and serial data input (pins SCL and SDA)
fCLK clock frequency
VIH HIGH level input voltage
VIL LOW level input voltage
IIH HIGH level input current
IIL LOW level input current
CI input capacitance
Isink SDA sink current
VOL = 0.4 V
0−
3−
−−
−3
−10 −5
−−
3−
Slave address select input (pin SAA) and Hardware power-down input (pin HPDN)
VIH HIGH level input voltage
VIL LOW level input voltage
IIH HIGH level input current
IIL LOW level input current
3−
−−
−−
−10 −
VCO output switches (pins VCOA and VCOB) and synthesizer alarm (pin SYA); note2
IOL LOW level sink current
VOL ≥ 0.4 V
400 −
Notes
1. CI is in parallel with RI.
2. Pin VCOA is forced to logic 0 during out-of-lock condition.
MAX.
100
−
1.5
10
−
10
−
−
0.4
0.1
−
−
UNIT
kHz
V
V
µA
µA
pF
mA
V
V
µA
µA
µA
2.0
I
(µA)
1.0
0
-1.0
-2.0
-20
MRA400
I PCD = 1 mA
IPCD = 0.5 mA
0 20
phase difference (t = ns)
The current IPCD is averaged over a reference period of 24 µs.
Fig.4 Gain of phase detector and charge pump.
October 1992
11
11 Page | ||
| Páginas | Total 17 Páginas | |
| PDF Descargar | [ Datasheet UMA1014.PDF ] | |
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