MICRO-LINEAR ML2751DT

PRELIMINARY
ML2751 Power Amplifier and LNA
FEATURES
GENERAL DESCRIPTION
The 2751 is a 900 MHz ISM band radio front-end intended
for use in half duplex radio applications such as cordless
phones and FCC Part 15 compliant devices. It integrates a
power amplifier (PA), a Low Noise Amplifier (LNA), Pin
Diode drivers for an external transmit/receive switch, and
control circuits. The 100mW power amplifier has output
power control with a >20dB range. The ML2751 can be
used to increase battery life and offers output power ramp
control in TDMA applications. An internal LNA eliminates
the need for a discrete design. PIN diode drivers control
the transmit/receive switch directly. Internal logic
individually enables the LNA, PA, and PIN diode drivers.
A power down mode to minimize current consumption is
included.
n Fully integrated Power Amplifier, Low Noise Amplifier,
and PIN diode drivers
n 100mW Power Amplifier
n Single supply, 2.7V to 4.5V operating range
n PA output: +21 dBm at 3.0V, 35dB gain, 35%
efficiency at 3.3V after harmonic filter; integrated PA
ramp control
n LNA: noise figure of 2.5dB, –15dBm 3rd-order intercept
point, and –25dBm
APPLICATIONS
n 900 MHz FCC Part 15 Radios
n 900 MHz Cordless Telephones
n TDD / TDMA Radios
SIMPLIFIED BLOCK DIAGRAM
ML2751
RAMP
GEN.
POWER
CONTROL
AMP
TPS, PAON, FEEN
PA
TRFI
TRFO
PIN
RF PIN
DIODE
SWITCH
CONT.
BLOCK
PIN DIODE
DRIVERS
LOOP
FILTER
Watch
Osc.
Xtal
ML2721
Baseband IC
(MODEM
CODEC
Protocol
MMI Control)
PINB
LNA
RLNI
Memory
RRFO
Keypad
Display
Mic.
Speaker
Ringer
BATTERY
DATASHEET
January, 2000
PRELIMINARY
ML2751
TABLE OF CONTENTS
General Description ................................................................................................................................................... 1
Features ...................................................................................................................................................................... 1
Applications ............................................................................................................................................................... 1
Simplified Block Diagram .......................................................................................................................................... 1
Warranty Information ................................................................................................................................................. 2
Block Diagram ........................................................................................................................................................... 3
Pin Configuration ....................................................................................................................................................... 4
Pin Descriptions ......................................................................................................................................................... 4
Functional Description ............................................................................................................................................... 6
Electrical Characteristics ............................................................................................................................................ 8
Electrical Tables ......................................................................................................................................................... 8
Physical Dimensions .................................................................................................................................................. 12
Order Information ....................................................................................................................................................... 12
WARRANTY
Micro Linear makes no representations or warranties with respect to the accuracy, utility, or completeness of the contents of
this publication and reserves the right to make changes to specifications and product descriptions at any time without notice.
No license, express or implied, by estoppel or otherwise, to any patents or other intellectual property rights is granted by this
document. The circuits contained in this document are offered as possible applications only. Particular uses or applications
may invalidate some of the specifications and/or product descriptions contained herein. The customer is urged to perform its
own engineering review before deciding on a particular application. Micro Linear assumes no liability whatsoever, and
disclaims any express or implied warranty, relating to sale and/or use of Micro Linear products including liability or warranties
relating to merchantability, fitness for a particular purpose, or infringement of any intellectual property right. Micro Linear
products are not designed for use in medical, life saving, or life sustaining applications.
© Micro Linear 2000. is a registered trademark of Micro Linear Corporation. All other trademarks are the property of their
respective owners.
Products described herein may be covered by one or more of the following U.S. patents: 4,897,611; 4,964,026; 5,027,116;
5,281,862; 5,283,483; 5,418,502; 5,508,570; 5,510,727; 5,523,940; 5,546,017; 5,559,470; 5,565,761; 5,592,128; 5,594,376;
5,652,479; 5,661,427; 5,663,874; 5,672,959; 5,689,167; 5,714,897; 5,717,798; 5,742,151; 5,747,977; 5,754,012; 5,757,174;
5,767,653; 5,777,514; 5,793,168; 5,798,635; 5,804,950; 5,808,455; 5,811,999; 5,818,207; 5,818,669; 5,825,165; 5,825,223;
5,838,723; 5.844,378; 5,844,941. Japan: 2,598,946; 2,619,299; 2,704,176; 2,821,714. Other patents are pending.
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PRELIMINARY DATASHEET
January, 2000
PRELIMINARY
ML2751
BLOCK DIAGRAM
VCC
15
POWER CONTROL AMP
DRIVER
RAMP
GENERATOR
VC
+
VP
9
–
TPS
10 TPA
100kΩ
PA
100kΩ
TRFO
18
PIN
12
TIMING AND
POWER DOWN
CONTROL
BLOCK
TRANSMIT ACTIVE
3
TRFI
1
PAON
2
FEEN
5
RRFO
PIN DIODE
DRIVERS
PINB
RECEIVE ACTIVE
13
LNA
RLNI
11
4
6
7
8
14
16
17
19
20
GND
GND
GND
GND
GND
GND
GND
GND
GND
January, 2000
PRELIMINARY DATASHEET
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PRELIMINARY
ML2751
PIN CONFIGURATION
ML2751
20-Pin TSSOP (T20)
PAON
1
20
GND
FEEN
2
19
GND
TRFI
3
18
TRFO
GND
4
17
GND
RRFO
5
16
GND
GND
6
15
VCC
GND
7
14
GND
GND
8
13
PINB
TPS
9
12
PIN
TPA
10
11
RLNI
TOP VIEW
PIN DESCRIPTIONS
Pin #
Signal Name
I/O Type
5
RRFO
O (analog)
11
RLNI
I (analog)
3
TRFI
I (analog)
9
TPS
I (analog)
10
TPA
I (analog)
18
TRFO
O (analog)
Description
LNA Section
Receive RF Output. LNA RF Output. This is an open collector output
that requires an external load to VCC. This pin requires matching for
optimum gain
Receive LNA RF input. This pin is directly connected to the base of an
NPN transistor. The input to this pin should be AC coupled using an
external capacitor. This input will require matching for optimum
performance
PA Section
4
Transmit RF Power Amplifier (PA) input. Requires RF choke to VCC that
can handle up to 150mA. The VCC end of the choke requires both RF
and low frequency decoupling to ground to minimize supply
modulation
This pin is the non-inverting input of an op amp. The voltage on this pin
sets the RF power produced by the PA, permitting variable power
operation under control of the baseband circuits (see Figure 2)
This pin is the inverting input of an operational amplifier. A resistor
from this pin to GND scales the TPS input voltage control range to
match that of the external baseband control circuits. If scaling of the
TPS input range is not required the TPA pin can either be grounded or
left floating (see Figure 2)
Transmit RF Power Amplifier output. Open collector output. Requires
RF choke to VCC that can handle up to 150mA. The VCC end of the
choke requires both RF and low frequency decoupling to ground to
minimize supply modulation
PRELIMINARY DATASHEET
January, 2000
PRELIMINARY
ML2751
PIN DESCRIPTIONS (continued)
Pin #
Signal Name
I/O
Description
PIN Diode Driver Section
12
PIN
O (analog)
13
PINB
O (analog)
This output is a low impedance voltage source that switches between
VCC and GND to drive an external PIN diode switch. This totem pole
output is tri-stated when FEEN = 0. When active it pulls either to VCC
(if PAON = 1) or to GND (if PAON = 0), and has a nominal output
impedance of 50W when sourcing and 120W when sinking
This output is a low impedance voltage source that switches between
VCC and GND to drive an external PIN diode switch. This totem pole
output is tri-stated when FEEN = 0. When active it pulls either to VCC
(if PAON = 0) or to GND (if PAON = 1) , and has a nominal output
impedance of 50W when sourcing and 120W when sinking. PINB is the
complement of PIN, providing a bipolar drive for PIN diodes from a
single power rail
Control and Interface
1
PAON
I (CMOS)
2
FEEN
I (CMOS)
15
VCC
Power
4
6
7
8
14
16
17
19
20
GND
GND
GND
GND
GND
GND
GND
GND
GND
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Power Amplifier on pin. The PA is active when PAON = 1, and the LNA
is active when PAON = 0. Rising and falling edges of this signal
initiate a controlled ramp of the PA bias circuits to eliminate AM
generated sidebands on the transmitter output. The PIN diode drivers
are synchronized with PAON (see Figure 3). When the ML2751 is in
standby mode this pin has no effect
Front-end enable. FEEN is the master power down pin. When FEEN = 0
the ML2751 is in standby mode. When FEEN = 1 either the PA or the
LNA is enabled (determined by the state of PAON). See Figure 3
Power & Ground
Positive power supply for the LNA, the first stages of the PA, the PIN
diode drivers, and the control logic. Care should be exercised in PCB
layout to minimize the trace length, and the inductance and resistance
both in the connection to the capacitor and from the capacitor to
ground
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PRELIMINARY DATASHEET
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PRELIMINARY
ML2751
FUNCTIONAL DESCRIPTION
resistor RTPA effectively determines the gain of the op
amp. RTPA can range in value from 0W to open circuit.
For +20dBm output power the typical full-scale signal on
the TPS will lie between 0.5V and 1V with TPA grounded.
TRANSMIT FUNCTIONALITY
Power Amplifier
The power amplifier (PA) consists of three cascaded gain
stages. The last stage (output stage) is powered directly
from the unregulated supply to increase end-product
battery life. The TPS and TPA pins are used to control its
output power. The TPS and TPA pins are connected to an
internal power control op amp as shown in Figure 1. The
op amp’s output voltage (VP) determines the PA's gain.
The voltage at VP drives a buffer that serves as a collector
supply for the first two stages of the power amplifier.
A ramp generator circuit between the power control op
amp and the buffer facilitates a gradual transition from
the on-state to the off-state of the PA on the rising/falling
edge of the PAON signal.
The DC voltage on the TPS pin determines VP, and may be
varied between 0V and 1V, with a nominal 100mW/V
sensitivity to this pin as shown in Figure 2. To compensate
for the IC manufacturing process variations of the power
amplifier the TPS voltage can be scaled by varying the
resistance between the TPA pin and ground. The value of
PAON
FEEN
Power
Control
Op Amp
+
TPA
–
VP
RAMP
GENERATOR
VC
PA
GAIN SET
0Ω to
open circuit
100kΩ
TRFI
A nominal gain of 20dB and a noise figure of 2.5dB
complement the ML2721, optimizing the balance
between sensitivity and high signal performance. The
open-collector LNA output provides flexibility in
matching the impedance that an RF filter presents to the
LNA. The input can be matched for low noise using a
small value series capacitor, and the two-stage design
minimizes the interaction between the input and output
match. The RF filter is placed between the ML2751 and
the ML2721.
TRFO
Figure 1. PA Power Setting and Ramp Generator
120
The PIN and PINB outputs are under control of the FEEN
and PAON control input pins (see Figure 3). The switching
between the transmit and receive paths is synchronized
with the PA ramp function, so that the transmit path is
selected at the rising edge of the transmit ramp (when
PAON = 1) and held until the PA has ramped down (about
3µs after PAON = 0).
Simple PIN diode switches can be driven directly, without
the need for current limiting resistors, as each output has a
nominal 100W series impedance. This reduces the total
component count. For more complex (or lower power)
switches individual current limiting resistors may be used,
forcing the PIN and PINB pins to act as voltage sources.
The total current drawn from each output must not exceed
the current source/sink specification limits.
100
80
POWER (mW)
The LNA is a two-stage transistor amplifier designed with
internal inter-stage impedance matching. The output is an
open collector that requires a load to a DC supply and
external matching. All associated bias circuits are
integrated internally. The LNA is controlled by the PAON
signal, as shown in Figure 3.
A pair of driver circuits is used to drive an external PIN
diode Transmit/Receive switch. The PIN diode drivers are
controlled from the timer’s internal enable signals. The
PIN and PINB output pins act as low impedance voltage
sources that switch between VCC and GND, with the
ability to both source and sink current.
100kΩ
RTPA
Low Noise Amplifier (LNA)
PIN Diode Driver
BUFFER
TPS
RECEIVE FUNCTIONALITY
60
40
20
0
0
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0
VOLTAGE (V)
Figure 2. Output vs. TPS Curve
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PRELIMINARY
ML2751
FUNCTIONAL DESCRIPTION
OPERATION MODES AND CONTROL INTERFACE
DESCRIPTION
required to set the output power level can be controlled
by an external resistor.
The signals FEEN and PAON determine the mode of
operation. The three standard modes of operation are
STANDBY, TRANSMIT, and RECEIVE. The control logic is
shown in Table 1.
Note that the ML2751 has an internal power amplifier
ramp-on and ramp-off circuit. The power amplifier turn
on/off relative to the ramp is shown in Figure 3. The rampon starts when the PA is enabled, the ramp-off starts when
it is disabled.
STANDBY: All circuits are off (LNA bias off), PIN driver
outputs are Tri-stated.
Two outputs, PIN and PINB, are provided from the
ML2751 to drive the external PIN diodes in the Transmit/
Receive switch. The timing for these voltage outputs is
shown in Figure 3 relative to the control pins FEEN and
PAON.
TRANSMIT: PA and the PIN diode drivers are enabled.
The LNA is off (zero current).
RECEIVE: The LNA bias circuits and the PIN diode drivers
are enabled, PA is disabled.
In addition to the two mode control inputs, FEEN and
PAON, there is an analog voltage input that can be used
to set the power output of the amplifier. The voltage range
STANDBY
TRANSMIT
RECEIVE
STANDBY
FEEN
PAON
3µs
3µs
PA RF
Envelope
PIN
Tri-state
Tri-state
PINB
Figure 3. Signals vs. Mode Relationships
FEEN
PAON
Mode
PIN
PINB
LNA
PA
0
X
STANDBY
Tri-state
Tri-state
Off
Off
1
0
RECEIVE
VCC/-10mA
VCC/+10mA
On
Off
1
1
TRANSMIT
VCC/+10mA
VCC/-10mA
Off
On
Table 1. Control Logic
January, 2000
PRELIMINARY DATASHEET
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PRELIMINARY
ELECTRICAL CHARACTERISTICS
ABSOLUTE MAXIMUM RATINGS
ML2751
OPERATING CONDITIONS
Absolute maximum ratings are those values beyond which
the device could be permanently damaged. Absolute
maximum ratings are stress ratings only and functional
device operation is not implied.
Normal Temperature Range ........................ –10ºC to 60ºC
VCC Range ..................................................2.7V to 3.0V
Thermal Resistance ........................................... 150ºC/W
Junction Temperature .............................................. 150ºC
Storage Temperature Range ...................... –65ºC to 150ºC
Lead Temperature (Soldering, 10s) .......................... 260ºC
Thermal Resistance ) ......................................... 150ºC/W
Input Voltage, VCC Pin ............................................. 6.0V
Input Voltage, GND Pin .............................. –0.3V to 0.3V
Input Voltage, Other Pins ................. –0.3V to VCC + 0.3V
ELECTRICAL TABLES
Unless otherwise specified, VCC = 3.3V, TA = Operating Temperature Range. (Note 1)
SYMBOL
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
3.0
3.3
4.5
V
GENERAL SPECIFICATIONS
VCC
Supply Voltage
ICC
Supply Current
tON
Turn on time
tSW
Tx ICC
Rx ICC
20
µA
Standby to Transmit or Receive (Note 2)
3
µs
Turn around time
Transmit to Receive/
Receive to Transmit
3
µs
Transmit active current
3v, FEEN & PAON high, POUT =
+20dBm
110
mA
3v, FEEN & PAON high, POUT =
0dBm
15
mA
3v, FEEN & PAON low
4
mA
20.5
dBm
Receive active current
TRANSMIT POWER AMPLIFIER
PMAX
Maximum output power
TPS = 1.0V (Note 3), Input
power 0dBm
PMID
Mid range output power
TPS = 0.3V (Note 3)
10
dBm
PMIN
Low output power
TPS = 0.15V (Note 3)
0
dBm
PGAIN
Power gain
Maximum power setting
37
dB
Input power <–30dBm
18
dB
RECEIVE LOW NOISE AMPLIFIER
GAIN
Power gain
NF
Noise figure
2.5
dB
IP3
3rd-order intercept point
–15
dBm
P1dB
1dB compression point
–25
dBm
ELECTRICAL TABLES (CONTINUED)
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PRELIMINARY DATASHEET
January, 2000
PRELIMINARY
ML2751
ELECTRICAL TABLES (Continued)
SYMBOL
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
PIN DIODE DRIVERS
VOUT
High
Low
VCC –0.3
0.3
V
IOUT
High
Low
10
–10
mA
Note 1: Limits are guaranteed by 100% testing, sampling, or correlation with worst case test conditions.
Note 2: PA turn on is measured from the rising edge of either PAON or FEEN to 90% of the programmed power output.
Note 3: PA power measurements are made at the output of the external harmonic filter under the following conditions: 0dBm input drive at 915MHz; the resistor on
TPA is set for +20dBm ±0.5dB output power; the TPS signal is 1V.
January, 2000
PRELIMINARY DATASHEET
9
PRELIMINARY
ML2751
PHYSICAL DIMENSIONS
Package: T20
20-Pin TSSOP
0.251 - 0.262
(6.38 - 6.65)
20
0.169 - 0.177
(4.29 - 4.50)
0.246 - 0.258
(6.25 - 6.55)
PIN 1 ID
1
0.026 BSC
(0.65 BSC)
0.043 MAX
(1.10 MAX)
0º - 8º
0.033 - 0.037
(0.84 - 0.94)
0.008 - 0.012
(0.20 - 0.30)
SEATING PLANE
0.020 - 0.028
(0.51 - 0.71)
0.002 - 0.006
(0.05 - 0.15)
0.004 - 0.008
(0.10 - 0.20)
ORDERING INFORMATION
PART NUMBER
TEMPERATURE RANGE
PACKAGE
ML2751DT
–10ºC to 60ºC
20P Pin TSSOP
Micro Linear Corporation
2092 Concourse Drive
San Jose, CA 95131
Tel: (408) 433-5200
Fax: (408) 432-0295
www.microlinear.com
DS2751-01
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PRELIMINARY DATASHEET
January, 2000