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Электронный компонент: W3013BCL-TR

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W3013 Indirect Quadrature Modulator
with Gain Control
Preliminary Data Sheet
November 1998
Features
n
Low-voltage operation: 2.7 V
n
High-frequency operation: 2.2 GHz
n
High RF output power: 10 dBm
n
High-accuracy phase shifter, no trim required
n
Low carrier feedthrough: 45 dBc
n
Automatic power control (APC) capability
n
Low-current sleep mode
n
20-pin TSSOP package
Applications
n
North American IS-136
n
Japan PDC (RCR STD 27)
n
Japan PHS (RCR STD 28)
n
GSM 900, 1800, and 1900 MHz
n
Narrowband CDMA
n
Digital satellite communications
Description
The W3013 is a monolithic integrated circuit that
provides indirect, quadrature modulation of an RF
carrier by I & Q baseband inputs. The function
performed by the W3013 is particularly suited for
handheld digital cellular and digital cordless
telephones that operate between 800 MHz and
2.2 GHz.
The circuit block diagram is shown below. From a
single local-oscillator input (LO1), the phase
shifter produces two LO signals with 90 phase
separation and equal amplitude. The LO signals
are fed to the in-phase (I) and quadrature (Q)
double-balanced mixers. The resulting signals are
summed and fed into an RF mixer where the
frequency can be translated to over 2 GHz.
Outputs between the summer and RF mixer are
available for external filtering. Finally, the signal is
amplified to provide a single-ended output.
The ENB/APC input with a logic low allows the
device to be put into a powerdown mode. Above
the logic low threshold, the device enters a power
control mode that provides a range of desired
output power levels.
Q
Q
I
I
LO1
LO1REF
LO2 LO2REF
RF
OUT
POWER
CONTROL
EXTERNAL
FILTER
RF
OUT
/
4
+
/
4
INTERNAL
LOW-PASS
FILTER
ENAB/APC
Figure 1. Circuit Block Diagram
W3013 Indirect Quadrature Modulator
Preliminary Data Sheet
with Gain Control
November 1998
2
Lucent Technologies Inc.
Pin Information
TOP
VIEW
20
19
18
17
16
15
14
12
13
11
1
2
3
4
5
6
7
8
9
10
V
CC
FILTA
I
Q
Q
FILTB
I
LO1REF
LO1
GND
V
CC
RF
OUT
GND
ENB/APC
GND
GND
GND
LO2REF
LO2
GND
12-2680
Figure 2. Pin Diagram
Table 1. Pin Descriptions
Pin
Symbol
Name/Description
1
V
CC
Positive Supply Voltage. For low-power/small-signal subcircuits.
2, 3
FILTA, FILTB
Filter. Nodes A & B for parallel resonant LC.
4
I
Differential Baseband Input.
5
I
Differential Baseband Input (Inverting).
6
Q
Differential Baseband Input.
7
Q
Differential Baseband Input (Inverting).
8, 9
LO1REF, LO1
First Local Oscillator Input. Either pin may be directly grounded.
10, 11, 14,
15, 17, 18
GND
Power Supply Ground.
12, 13
LO2, LO2REF
Second Local Oscillator Input. Either pin may be directly grounded.
16
ENB/APC
Enable/Automatic Power Control.
19
RF
OUT
RF Output.
20
V
CC
Positive Supply Voltage. For RF output stage.
Preliminary Data Sheet
W3013 Indirect Quadrature Modulator
November 1998
with Gain Control
Lucent Technologies Inc.
3
Absolute Maximum Ratings
Stresses in excess of the absolute maximum ratings can cause permanent damage to the device. These are
absolute stress ratings only. Functional operation of the device is not implied at these or any other conditions in
excess of those given in the operations sections of the data sheet. Exposure to absolute maximum ratings for
extended periods can adversely affect device reliability.
Parameter
Symbol
Min
Max
Unit
Ambient Operating Temperature
T
A
40
100
C
Storage Temperature
T
stg
65
150
C
Lead Temperature (soldering, 10 s)
T
L
--
300
C
Positive Supply Voltage
V
CC
--
5
Vdc
Power Dissipation
P
D
--
750
mW
Output Current (continuous)
I
OUT
--
160
mA
ac Input Voltage
--
GND
V
CC
Vp-p
Enable Input Voltage
V
ENB
GND
V
CC
Vdc
Handling Precautions
Although protection circuitry has been designed into this device, proper precautions should be taken to avoid
exposure to electrostatic discharge (ESD) during handling and mounting. Lucent Technologies Microelectronics
Group employs a human-body model (HBM) and a charged-device model (CDM) for ESD-susceptibility testing
and protection design evaluation. ESD voltage thresholds are dependent on the circuit parameters used to define
the model. No industry-wide standard has been adopted for CDM. However, a standard HBM (resistance =
1500
, capacitance = 100 pF) is widely used and, therefore, can be used for comparison purposes. The HBM
ESD threshold presented here was obtained by using these circuit parameters:
ESD Threshold Voltage
Device
Rating
Model
W3013
1000 V
HBM
W3013
1000 V
CDM
W3013 Indirect Quadrature Modulator
Preliminary Data Sheet
with Gain Control
November 1998
4
Lucent Technologies Inc.
Operating Ranges
This table lists the ranges of external conditions in which the W3013 provides general functionality that may be
useful in specific applications without risk of permanent damage. However, performance is not guaranteed over
the full range of all possible conditions. The conditions for guaranteed performance are described in the
Electrical Characteristics table.
Parameter
Min
Typ
Max
Unit
V
CC
2.7
--
3.6
V
f
LO1
100
178
350
MHz
V
LO1
100
250
600
mVp-p
f
LO2
100
1620
2200
MHz
V
LO2
100
250
600
mVp-p
f
RF
<800
--
>2200
MHz
I & Q Input Range of dc Bias for 1 Vp-p Differential Input
V
CC
/2 0.1
V
CC
/2
V
CC
/2 + 0.1
Vdc
I & Q Input Range of dc Bias for 1 Vp-p Single-ended
Input
V
CC
/2 0.1
V
CC
/2
V
CC
/2 + 0.1
Vdc
I (Q) to
I
(
Q
) Differential Input Swing*
--
1.0
1.1
Vp-p
Ambient Operating Temperature
35
25
85
C
* Distortion-dependent, e.g., 1.3 Vp-p
/4 DQPSK peak voltage meets PDC or IS-136 distortion specification under random data modulation.
Electrical Characteristics
Table 2. Electrical Characteristics
Conditions (unless otherwise specified): T
A
= 25 C
3 C, V
CC
= 2.7 Vdc, R
L
= 50
, f
LO1
= 178 MHz,
f
LO2
= 1620 MHz, P
LO1
= P
LO2
= 10 dBm, V
BIAS
(I) = V
BIAS
(
I
) = V
BIAS
(Q) = V
BIAS
(
Q
) = V
CC
/2;
I
I
= 0.5
Y
cos(2
t
Y
80 kHz
/2) V, Q
Q
= 0.5
Y
cos(2
t
Y
80 kHz) V, f
RFOUT
= 1442.08 MHz,
V
APC
= 2.7 Vdc.
Parameter
Min
Typ
Max
Unit
V
CC
Supply Current:
Active Mode
--
37
--
mA
Sleep Mode @ V
CC
= 3.3 V, ENB/APC
0.1 Vdc
--
<1
50
A
I & Q:
I & Q Signal Path: 3 dB Bandwidth (differential input)
--
21
--
MHz
I & Q Input Bias Current
--
500
1500
nA
I & Q Input Impedance
--
1
--
M
LO1:
LO1 Suppression (relative to output power)
--
45
--
dBc
LC Filter Pins: Differential Impedance
--
600
||
1.2
--
||
pF
LO2:
LO2 Suppression (relative to output power)
--
35
--
dBc
Modulation Accuracy:
Carrier Suppression (relative to wanted sideband)
35
50
--
dBc
Lower Sideband Suppression
35
45
--
dBc
Transmitted I and Q Amplitude Error
--
0.1
--
dB
Transmitted I and Q Phase Error
--
1
--
degrees
Error Vector Magnitude (See page 6.)
--
1.3
5
%
Preliminary Data Sheet
W3013 Indirect Quadrature Modulator
November 1998
with Gain Control
Lucent Technologies Inc.
5
Electrical Characteristics
(continued)
Table 2. Electrical Characteristics (continued)
Conditions (unless otherwise specified): T
A
= 25 C
3 C, V
CC
= 2.7 Vdc, R
L
= 50
, f
LO1
= 178 MHz, f
LO2
=
1620 MHz, P
LO1
= P
LO2
= 10 dBm, V
BIAS
(I) = V
BIAS
(
I
) = V
BIAS
(Q) = V
BIAS
(
Q
) = V
CC
/2,
I
I
= 0.5
Y
cos(2
t
Y
80 kHz
/2) V, Q
Q
= 0.5
Y
cos(2
t 80 kHz) V, f
RFOUT
= 1442.08 MHz,
V
APC
= 2.7 Vdc.
Parameter
Min
Typ
Max
Unit
RF Output:
Output Power (narrowband match):
1442 MHz
13
8
3
dBm
800 MHz (LO2 = 978 MHz)
--
8
--
dBm
1910 MHz (LO2 = 1732 MHz)
--
10
--
dBm
Output Power Total Range of APC Control
--
55
--
dB
Usable APC Range:*
PDC (IQ offset < 23 dBc, 100 kHz adjacent channel
power < 60 dBc)
35
45
--
dBc
IS-136 (IQ offset < 23 dBc, 60 kHz adjacent channel
power < 45 dBc)
45
54
--
dBc
Adjacent Channel Suppression at Maximum Output
(1.3 Vp-p random data digital modulation):
0.35-DQPSK Modulation per IS-136:
30 kHz
--
39
35
dBc
60 kHz
--
64
57
dBc
90 kHz
--
67
57
dBc
0.5-DQPSK Modulation per Japan PDC at Maximum
Output:
50 kHz
--
60
54
dBc
100 kHz
--
73
65
dBc
0.5-DQPSK Modulation per Japan PHS at Maximum
Output:
600 kHz
--
62
50
dBc
900 kHz
--
63
50
dBc
Enable/APC:
V
IHMIN
(higher voltage turns device on)
--
0.81
1.0
V
V
ILMAX
(lower voltage turns device off)
0.6
--
--
V
I
ILMAX
(V
ENABLE/
APC = 0.4 V)
--
--
<1
A
I
IHMAX
(V
ENABLE/
APC = 2.7 V)
--
--
40
A
Powerup/Powerdown Time
--
--
4
s
APC Voltage for Minimum Output Power
--
1.0
--
Vdc
APC Voltage for Maximum Output Power
2.5
--
--
Vdc
APC Bandwidth
5
--
--
MHz
* Usable APC range is defined to be the satisfaction of respective transmitter system requirements in the adjacent and alternate channels,
as well as IQ offset and EVM requirements in each standard.