Powering ADI Components PDF

POWERING ADI
COMPONENTS
In Industrial and Instrumentation Applications
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2
Powering ADI Components
Powering Bipolar Components
Analog Devices offers complete power management solutions to power
devices requiring bipolar supplies such as amplifiers, ADCs, and DACs in
precision signal chains. ADI offers solutions both for supply generation
and low noise point of loads with PSRRs specified at modern switcher
frequencies.
ADP5070/ADP5071/ADP5073/ADP5074/ADP5075 Enable Lower EMI/EMC
Power Solutions Through Resistor Programmable Slew Rate Control
Fast Slew Rate Causes
More Voltage Ringing
ADM7160
LDO
Fastest
+15 V
+16.5 V
+5 VIN
ADP7118
LDO
+15 VOUT
Amp/
Filter
ADP5070/
ADP5071
–16.5 V
ADP7182
LDO
–15 VOUT
–15 V
REF
Slowest
+15 V
-1.8 V
ADC
–15 V
ADC/amplifier applications diagram.
Reduced dV/dt of the Switching Node Results in a Significant Reduction
of the Supply and Ground Ringing, as well as Lower Radiated EMI/EMC
DC-to-DC for Bipolar Applications
Part
Number
Product Description
Dual dc-to-dc with boost
and inverter outputs for
generating independent positive
and negative outputs
Dual dc-to-dc with boost
and inverter outputs for
ADP5071
generating independent positive
and negative outputs
ADP5070
V (VIN)
V (VOUT)
Number of
Outputs
Input Current
Limt (A)
Boost/
inverter:
2.85 to 15
Boost: VIN to 39 V,
inverter: –0.5 V to
–39 V below VIN
1 × boost
Boost: 1,
inverter: 0.6
Individual enable pin, adjustable outputs,
20-lead LFCSP,
sequence control, sync sequence, soft
20-lead TSSOP
start, and slew rate control
Boost/
inverter:
2.85 to 15
Boost: VIN to 39 V,
inverter: –0.5 V to
–39 V below VIN
1 × inverter
Boost: 2,
inverter: 1.2
Individual enable pin, adjustable outputs,
20-lead LFCSP,
sequence control, sync sequence, soft
20-lead TSSOP
start, and slew rate control
1 × inverter
1 × boost
Key Features
Package
ADP5073
Inverting switching regulator for
generating negative output
Inverter:
2.85 to 15
Inverter: –0.5 V to
–39 V below VIN
1 × inverter
Inverter: 1.2
Enable pin, adjustable output,
soft start, and slew rate control
16-lead LFCSP
ADP5074
Inverting switching regulator for
generating negative output
Inverter:
2.85 to 15
Inverter: –0.5 V to
–39 V below VIN
1 × inverter
Inverter: 2.4
Enable pin, adjustable output,
soft start, and slew rate control
16-lead LFCSP
ADP5075
Inverting switching regulator for
generating negative output
Inverter:
2.85 to 15
Inverter: –0.5 V to
–39 V below VIN
1 × inverter
Inverter: 0.8
Enable pin, adjustable output,
soft start, and slew rate control
12-ball WLCSP
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Transformer
+7 V
ADP7118
LDO
ADM7160 +2.5 V
LDO
+5 V
1-Tap
Transformer
REF
+24 V
+24 VIN
ADP7142
LDO
+18 V
+18 V
ADP1621
+18 V
+2.5 V
+24 VIN
Amp/
Filter
+12 V
ADP5070/
ADP5071
Flyback
(ADP1621)
or
AC Rectifier
+18 V
–18 V
+5 V
ADP7118
DAC
–20 V
ADP7182
LDO
–18 V
–18 V
–18 V
Powering bipolar output applications diagram.
High Voltage LDOs
Part
Number
VIN Range
(V)
VOUT Fixed
(V)
VOUT Range
(V)
IOUT
(mA)
Soft
Start
Power
Good
RMS Noise @
10 Hz to 100 kHz
(μV rms)
PSRR @
100 kHz
(dB)
PSRR @
1 MHz
(dB)
ADP7102
ADP7104
ADP7105
ADP7112
3.3 to 20
3.3 to 20
3.3 to 20
2.7 to 20
1.5 to 9
1.5 to 9
1.8, 3.3, 5
1.2 to 5
1.22 to 19
1.22 to 19
1.22 to 19
1.2 to 19
300
500
500
200
No
No
Yes
Yes
Yes
Yes
Yes
No
15
15
15
11
60
60
60
68
40
40
40
50
ADP7118
2.7 to 20
1.2 to 5
1.2 to 19
200
Yes
No
11
68
50
ADP7142
2.7 to 40
1.2 to 5
1.2 to 39
200
Yes
No
11
68
50
Package
3 mm × 3 mm, 8-lead LFCSP, 8-lead SOIC
3 mm × 3 mm, 8-lead LFCSP, 8-lead SOIC
3 mm × 3 mm, 8-lead LFCSP, 8-lead SOIC
1 mm × 1.2 mm, 6-ball WLCSP
2 mm × 2 mm, 6-lead LFCSP,
8-lead SOIC, 5-lead TSOT
2 mm × 2 mm, 6-lead LFCSP,
8-lead SOIC, 5-lead TSOT
Negative Voltage LDOs
Part
Number
VIN Min VIN Max
(V)
(V)
IOUT
(mA)
VOUT Options or
Adj Range (V)
PSRR @
100 kHz
(dB)
PSRR @
1 MHz
(dB)
RMS Noise @
100 kHz to 100 kHz
(μV rms)
Noise Spectral
Density 100 kHz
(nV√Hz)
Dropout @
Rated IOUT
Typ (mV)
Total
Accuracy
Max (±%)
ADP7182
–2.7
–28
–200
–1.22 to –27
45
32
18
50
185
–3/+2
ADP7183
–2
–5.5
–300
–0.5 to –5.4
>50
40
5
18
100
±1
Package
3 mm × 3 mm,
10-lead MSOP
2 mm × 2 mm,
8-lead MSOP
Switching Controller
Part
Number
ADP1621
1
VIN Range (V)
VOUT Range (V)
IOUT (A)
Device Topology
2.9 to 5.5
1.22 to 100
—
Step-up
1
Input voltage range extended with external components.
Minimum Switching
Frequency (kHz)
100
Maximum Switching
Frequency (MHz)
1.5
Package
3 mm × 3 mm, 10-lead MSOP
3
4 Powering ADI Components
Powering RF Loads
When powering RF circuits, power supplies need to be as quiet as possible to avoid the injection of noise into the RF spectrum. ADI offers the
industry’s largest portfolio of lowest noise linear regulators specifically
designed for powering RF loads.
12 V
12 VIN
5V
ADM7150
LDO
ADM7150
LDO
VVCO
5V
VCO
GND
PLL/VCO
GND
(ADF5355)
3.3 V
ADM7150
LDO
3.8 V
ADM7154
LDO
VDD
3.3 V
Clocking
(AD9525)
GND
GND
GND
GND
PLL/VCO applications diagram.
Clocking applications diagram.
0
−50
1 µF
10 µF
100 µF
1000 µF
−20
−70
−40
−90
PSRR (dB)
VCO Phase Noise (dBc/Hz)
−110
−130
−80
−100
−150
−170
−60
−120
−140
1k
10k
100k
1M
10M
1
10
100
1k
10k
100k
1M
10M
Frequency (Hz)
Frequency Offset (Hz)
ADM7154 PSRR vs. frequency, VOUT = 3.3 V, 400 mA load, 500 mV headroom.
ADF5355 VCO noise, powered by ADM7150.
Switching Regulators
Part
Number
ADP2164
ADP2360
ADP2370
ADP5073
VIN Range (V)
2.7 to 6.5
4.5 to 60
3.2 to 15
2.85 to 15
VOUT Range (V) IOUT (A)
0.6 to VIN
0.8 to VIN
0.8 to 14
–0.5 to VIN –39
4
0.05
0.8
0.7
Device Topology
Step-down
Step-down
Step-down
Inverting
Minimum Switching
Maximum Switching
Frequency (kHz)
Frequency (MHz)
500
1.4
Variable frequency control
600
1.2
1000
2.6
Package
4 mm × 4 mm, 16-lead LFCSP
3 mm × 3 mm, 8-lead LFCSP
3 mm × 3 mm, 8-lead LFCSP
3 mm × 3 mm, 16-lead LFCSP
Visit analog.com High Speed Converters
Powering High Speed ADCs
Powering High Speed DACs
High speed converters need low noise analog core rails, and ADI offers
both LDO and switching regulators to solve these problems.
RF DACs require very low noise power supplies in order to achieve spectral
purity at the outputs and Analog Devices offers low noise, positive and
negative power supply solutions.
AD9680
+6 VIN
14-Bit, 1000 MSPS
JESD204B, Dual Analogto-Digital Converter
3.3 V
Input
ADP2164
Buck
Regulator
5 V/12 V
Input
ADP2370
Buck
Regulator
1.7 V
3.8 V
ADM7171
LDO
2.5 V: AVDD2
ADM7160
LDO
1.8 V: SPIVDD
ADP1741
LDO
1.25 V: AVDD1
ADP1741
LDO
1.25 V: DVDD
ADM7160
LDO
ADM7150
LDO
ADM7150
LDO
+5.0 V
PLL
ADF4355-2
+1.8 V
AD9129
RF DAC
1.25 V: AVDD1_SR
−1.5 V
1.25 V: DRVDD
ADP5073
−6 V
3.3 V: AVDD3
ADP7183
−VE LDO
Ultralow Noise LDOs
PSRR @ PSRR @
RMS Noise @
Noise Spectral
VOUT Range IOUT
(V)
(mA) 100 kHz 1 MHz 10 Hz to 100 kHz Density √100 kHz
(dB)­
(dB)
(μV rms)
(nV Hz)
ADM7150
4.5 to 16 1.5 to 5.0 800
94
62
1.6
1
ADM7151
4.5 to 16 1.5 to 5.1 800
94
62
1.6
1
ADM7154
2.3 to 5.5 1.2 to 3.3 600
90
58
1.6
1.2
ADM7155
2.3 to 5.5 1.2 to 3.3 600
90
58
1.6
1.2
ADM7160
2.2 to 5.5 1.8 to 3.3 200
54
47
9
20
ADM7170
2.3 to 6.5 1.2 to 6.4 500
60
31
6
12
ADM7171
2.3 to 6.5 1.2 to 6.4 1000
60
31
6
12
ADM7172
2.3 to 6.5 1.2 to 6.4 2000
60
31
6
12
ADP1741
1.6 to 3.6 0.75 to 3.3 2000
54
40
23
<60
HMC860LP3E 3.35 to 5.6 2.5 to 5.2 240
65
60
1.5
3
HMC976LP3E
3.3 to 5.5 1.8 to 5.1 400
45
30
9
3
HMC1060LP3E 3.35 to 5.6 1.8 to 5.2 500
71
60
1.5
3
VIN Range
(V)
Part Number
Dropout @
Total
Rated IOUT Accuracy
Typ (mV) Max (±%)
600
2
600
2
120
2
120
2
150
3
42
1.25
84
1.5
172
1.5
160
2
—
2
300
2
—
2
Package
3 mm × 3 mm, 8-lead LFCSP
3 mm × 3 mm, 8-lead LFCSP
3 mm × 3 mm, 8-lead LFCSP
3 mm × 3 mm, 8-lead LFCSP
2 mm × 2 mm, 6-lead LFCSP
3 mm x 3 mm, 8-lead LFCSP
3 mm × 3 mm, 8-lead LFCSP
3 mm x 3 mm, 8-lead LFCSP
4 mm × 4 mm, 16-lead LFCSP
3 mm × 3 mm, 16-lead LFCSP
3 mm × 3 mm, 16-lead LFCSP
3 mm × 3 mm, 16-lead LFCSP
Negative Ultralow Noise LDO
Part
Number
ADP7183
VIN Min VIN Max
(V)
(V)
–2
–5.5
IOUT
(mA)
VOUT Options or
Adj Range (V)
PSRR @
100 kHz
(dB)
PSRR @
1 MHz
(dB)
RMS Noise @
100 kHz to 100 kHz
(μV rms)
Noise Spectral
Density 100 kHz
(nV√Hz)
Dropout @
Rated IOUT
Typ (mV)
Total
Accuracy
Max (±%)
Package
–300
–0.5 to –5.4
>50
40
5
18
100
±1
2 mm × 2 mm,
8-lead MSOP
5
6
Powering ADI Components
Upcoming Solutions for Powering High Speed Converters
ADP1761/ADP1762/ADP1763
XX
1 A, 2 A, and 3 A versions available
VIN = 1.1 V
Ultralow Dropout Voltage
XX
80 mV @ 2 A load
XX
±1.5% accuracy over line, load,
and temperature
CIN
10 µF
55 dB @ 100 kHz @ 2 A load
XX
40 dB @ 1 MHz @ 2 A load
XX
16-lead, 3 mm × 3 mm LFCSP package
VOUT = 0.80 V
COUT
10 µF
Sense
ADI
High Speed
Converter
(ADC or DAC)
ADP1761/ADP1762/
ADP1763
On
Off
EN
PGOOD
SS
Excellent PSRR Performance
XX
VOUT
VIN
VADJ
VREG
CREG
1 µF
REFCAP
CREF
1 µF
GND
Typical application circuits.
ADP7183
XX
Input voltage range:
–2 V to –5.5 V
XX
Max current rating:
–300 mA
XX
Very low noise 5 μV rms
independent of VOUT
XX
XX
PSRR at 1 MHz 40 dB,
100 kHz >50 dB
VIN = –5 V
Off
–1.2 V
Initial accuracy: ±0.5%
XX
Precision enable at –1.2 V
XX
Positive enable control
XX
8-lead, 2 mm × 2 mm LFCSP
CIN
10 µF
On +1.2 V
0V
CREG
10 µF
On
Fixed output voltage options:
–0.5 V to –4.5 V
XX
VOUT = –3.3 V
8
VIN
VOUT 1
7
EN
Sense 2
6
VREG
VAFB 3
5
GND
VA 4
ADP5003
Buck wide input range:
4.2 V to 15 V
XX
Buck programmable output range:
0.6 V to 5 V
XX
<40 μV rms buck output noise
(independent of VOUT setting)
XX
XX
Internal 3 A, low noise NFET LDO acts as an
active filter for sensitive analog supplies
LDO wide input range:
0.65 V to 5 V
XX
LDO fixed/programmable output range:
0.6 V to 3.3 V
XX
True differential remote sensing
XX
Below 10 μV rms LDO output noise
(independent of VOUT)
XX
PSRR >50 dB (up to 100 kHz)
@ 200 mV headroom at 2 A
XX
Power-good output
CFIL
1 µF
PVIN1
CBYP
1 µF
VIN = 12 V
VFB1
3 A low noise buck regulator
XX
ADI
RF DAC
EN1
Low Noise Buck and LDO
XX
COUT
10 µF
COMP
Buck
Regulator
3A
SW1
L1
2.2 µH
VMID
(Adaptive)
PGND1
VSET1
VREG
SS/RT
VIN = 12 V
PVINSYS
System
PWRGD
SyncIN /
SyncOUT
REFOUT
PVIN2
VSET2
Optional
2nd Filter
VBUF
VREGLDO
Low Noise,
LDO Active
Filter
3A
VOUT2
VFB2P
EN2
VFB2N
AGND
VOUT = 1.300 V
(<10 µV rms, ±1.5%)
ADI RF
Transceiver,
HS ADC/DAC,
Clock, ASIC/
Processor
Visit analog.com Design Tools
Online Tools and Resources
Linear Regulator Parametric Selections and Design Tool
The ADIsimPower™ design center lets you design your power circuits in three easy steps.
Step 1. Select parts
Step 2. Design and optimize
Step 3. Simulate
The ADIsimPower selector uses your specific application requirements and compares
solutions from over 300 power management parts and over 10 different topologies.
Each solution takes into consideration the IC, external components, and operating
condition to be able to compare expected performance. For more infromation,
visit http://www.analog.com/adisimpower.
Step 1
Step 2
Smart Web selector.
Design and optimize for size, cost, or efficiency.
Step 3
Simulation.
The design report includes BOM and thermals at operating conditions.
7
Industrial Applications Diagrams
Typical Block Diagram Showing an Isolated 24 V Power Chain for Industrial Applications
Xilinx®/
Altera®
FPGA
DC-to-DC
Mains
+240 V/+110 V
+24 V DC
AC-to-DC
Input
Protection
ADP1071*
ADP1072*
ADP1074*
+24 V DC
DC-to-DC
+5 V
ADP5014*
ADP5134
ADP5135
ADP5052
ADP5054
ADP2311
ADP2230
ADP2360*
ADP2441
ADP2442
ADP2443*
ADM1270
ADP1621
Isolated
Flyback
ADP1071*
ADP1072*
ADP1074*
ADP7118
ADP7142*
ADP7104
+16 V
VPOS
LDO
VPOS/VNEG
DC-to-DC
ADP5070
ADP5071
ADP1621
Isolated
Flyback
VNEG
DC-to-DC
ADP1071*
ADP1072*
ADP1074*
ADP5073
ADP5074
ADP5075
ADP5600*
+15 V
VNEG
LDO
−16 V
Amp/
Filter
ADC
−15 V
−15 V
−15 V
ADP7182
−5.5 V
+15 V
+15 V
VNEG
LDO
−5 V
ADP7183
DAC
−5 V
*New products.
Typical Block Diagram for a Low Power, Battery-Operated System
Battery
Multirail
DC-to-DC
Sensor
ADP5310
Energy
Harvesting
3.3 V
0.8 V to 3.0 V
DC-to-DC
3.3 V
ADP1606
ADP1607
Microcontroller
ADP5300
ADP2370
ADP2371
ADP5090
ADP5091*
Single Cell
Battery
DC-to-DC
Sensor
Microcontroller
Communications
LDO
Radio
Communications
ADP160
ADP161
ADP162
ADP163
ADP165
ADP166
*New product.
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