HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Features
• 8-bit High Speed Single/ Dual/ Quad ADC
Single Channel Mode: FSmax = 1000 MSPS
Dual Channel Mode: FSmax = 500 MSPS
Quad Channel Mode: FSmax = 250 MSPS
• Internal Offset Correction
• Integrated Cross Point Switches (Mux Array)
• Serial LVDS/RSDS Output
• 1X to 50X Digital Gain
No Missing Codes up to 32X
• 7x7 mm QFN 48 (LP7D) Package
• 1X Gain: 49.8 dB SNR. 10X Gain: 48 dB SNR
• Internal Low Jitter Programmable Clock Divider
A / D Converters - SMT
0
• 1.8V Supply Voltage
• 1.7 - 3.6V CMOS Logic on Control Interface Pins
Typical Applications
• USB Powered Oscilloscopes
• Ultra Low Power Dissipation
710 mW including I/O at 1000 MSPS
• Digital Oscilloscopes
• 0.5 µs Start-up Time from Sleep,
15 µs from Power Down
Pin compatible parts
• Internal Reference Circuitry with no
External Components Required
• HMCAD1511 is pin compatible with HMCAD1520
• Coarse and Fine Gain Control
• Digital Fine Gain Adjustment for each ADC
• Satellite Receivers
• HMCAD1511 is pin compatible and can be
configured to operate as HMCAD1510, with
functionality and performance as described
in HMCAD1510 datasheet
Functional Diagram
Figure 1. Functional Block Diagram
0-1
Information furnished
furnished by
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Devices is
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believed to
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be accurate
accurate and
and reliable.
reliable. However,
However, no
no
Information
responsibility is
is assumed
assumed by
by Analog
Analog Devices
Devices for
for its
its use,
use, nor
nor for
for any
any infringements
infringements of
of patents
patents or
or other
other
responsibility
rights
of
third
parties
that
may
result
from
its
use.
Specifications
subject
to
change
without
notice.
No
rights of third parties that may result from its use. Specifications subject to change without notice. No
license isis granted
granted by
by implication
implication or
or otherwise
otherwise under
under any
any patent
patent or
or patent
patent rights
rights of
of Analog
Analog Devices.
Devices.
license
Trademarksand
andregistered
registeredtrademarks
trademarksare
arethe
theproperty
property
their
respective
owners.
Trademarks
of of
their
respective
owners.
For price,
price, delivery,
delivery, and
and to
to place
place orders:
orders: Analog
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Devices, Inc.,
Inc.,
For
One Technology
Technology Way,
Way, P.O.
P.O. Box
Box 9106,
9106, Norwood,
Norwood, MA
MA 02062-9106
02062-9106
One
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1-800-ANALOG-D
Application
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
General Description
The HMCAD1511 is a versatile high performance low power analog-to-digital converter (ADC), utilizing time-interleaving
to increase sampling rate. Integrated Cross Point Switches activate the input selected by the user.
In single channel mode, one of the four inputs can be selected as a valid input to the single ADC channel. In dual
channel mode, any two of the four inputs can be selected to each ADC channel. In quad channel mode, any input can
be assigned to any ADC channel.
An internal, low jitter and programmable clock divider makes it possible to use a single clock source for all operational
modes.
The HMCAD1511 is based on a proprietary structure, and employs internal reference circuitry, a serial control
interface and serial LVDS/RSDS output data. Data and frame synchronization clocks are supplied for data capture
at the receiver. Internal 1 to 50X digital coarse gain with ENOB > 7.5 up to 16X gain, allows digital implementation of
oscilloscope gain settings. Internal digital fine gain can be set separately for each ADC to calibrate for gain errors.
HMCAD1511 is designed to easily interface with Field Programmable Gate Arrays (FPGAs) from several vendors.
Electrical Specifications
DC Specifications
AVDD = 1.8V, DVDD = 1.8V, OVDD = 1.8V, FS = 125 MSPS, Quad Channel Mode, 50% clock duty cycle, -1 dBFS 70 MHz input
signal, 1x/0 dB digital gain (fine and coarse), unless otherwise noted
Parameter
Description
Min
Typ
Max
Unit
±6
%FS
DC accuracy
No missing codes
Offset
Guaranteed
Offset error after internal digital offset correction
0.05
LSB
Gabs
Gain error
Grel
Gain matching between channels. ±3 sigma value at worst
case conditions
±0.5
DNL
Differential non linearity
±0.2
LSB
INL
Integral non linearity
±0.5
LSB
Common mode voltage output
VAVDD/2
VCM,out
%FS
Analog Input
VCM,in
Analog input common mode voltage
FSR
Differential input voltage full scale range
VCM -0.1
2
VCM +0.2
Vpp
V
Cin,Q
Differential input capacitance, Quad channel mode
5
pF
Cin,D
Differential input capacitance, Dual channel mode
7
pF
Cin,S
Differential input capacitance, Single channel mode
11
pF
0
A / D Converters - SMT
Various modes and configuration settings can be applied to the ADC through the serial control interface (SPI). Each
channel can be powered down independently and data format can be selected through this interface. A full chip idle
mode can be set by a single external pin. Register settings determine the exact function of this pin.
Power Supply
VAVDD
Analog Supply Voltage
1.7
1.8
2
VDVDD
Digital and output driver supply voltage
1.7
1.8
2
V
V
VOVDD
Digital CMOS Input Supply Voltage
1.7
1.8
3.6
V
Operating free-air temperature
-40
85
°C
Temperature
TA
price,
andis to
placeto orders:
Analog
Devices,
Inc.,
Technology
Box
9106,
Norwood,
InformationFor
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by delivery,
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and reliable.
However,
no One
For price,
delivery,Way,
and toP.O.
place
orders:
Analog
Devices, Inc.,
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone: 781-329-4700 • Order onlineApplication
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Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property of their respective owners.
Application Support: Phone: 1-800-ANALOG-D
0-2
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
AC Specifications
AVDD = 1.8V, DVDD = 1.8V, OVDD = 1.8V, 50% clock duty cycle, -1 dBFS 71 MHz input signal, Gain = 1X, RSDS output data levels unless
otherwise noted
Parameter
Description
Min
Typ
48.5
49.8
Max
Unit
Performance
SNR
Signal to Noise Ratio, excluding interleaving spurs
Single Ch Mode, FS = 1000 MSPS
49.7
dBFS
Single Ch Mode, FS = 1000 MSPS, Gain = 10X
48.1
dBFS
49.8
dBFS
Single Ch Mode, FS = 500 MSPS
48.5
Single Ch Mode, FS = 500 MSPS, Gain = 10X
A / D Converters - SMT
0
SINADincl
49.8
dBFS
Quad Ch Mode, FS = 250 MSPS
48.5
49.9
dBFS
Signal to Noise and Distortion Ratio, including interleaving
spurs
45.7
dBFS
Dual Ch Mode, FS = 500 MSPS
44
dBFS
Quad Ch Mode, FS = 250 MSPS
49.2
dBFS
49.3
dBFS
Signal to Noise and Distortion Ratio, excluding interleaving
spurs
48
Single Ch Mode, FS = 1000 MSPS, FIN = 170 MHz
46.5
dBFS
Single Ch Mode, FS = 1000 MSPS, Gain = 10X
47.5
dBFS
Single Ch Mode, FS = 500 MSPS
48
Single Ch Mode, FS = 500 MSPS, Gain = 10X
SFDRexcl
dBFS
48
49
dBFS
48
49.3
dBFS
Spurious Free Dynamic Range, including interleaving spurs
Single Ch Mode, FS = 1000 MSPS
49
dBc
Dual Ch Mode, FS = 500 MSPS
44
dBc
Quad Ch Mode, FS = 250 MSPS
57
dBc
64
dBc
Spurious Free Dynamic Range, excluding interleaving spurs
55
Single Ch Mode, FS = 1000 MSPS, FIN = 170 MHz
63
dBc
Single Ch Mode, FS = 1000 MSPS, Gain = 10X
62
dBc
65
dBc
65
dBc
Single Ch Mode, FS = 500 MSPS
56
Dual Ch Mode, FS = 500 MSPS
55
63
dBc
Quad Ch Mode, FS = 250 MSPS
58
70
dBc
60
65
dBc
Worst of HD2/HD3
Single Ch Mode, FS = 1000 MSPS
Single Ch Mode, FS = 1000 MSPS, FIN = 170 MHz
65
dBc
Single Ch Mode, FS = 1000 MSPS, Gain = 10X
63
dBc
65
dBc
65
dBc
Single Ch Mode, FS = 500 MSPS
60
Single Ch Mode, FS = 500 MSPS, Gain = 10X
0-3
dBFS
47.7
Quad Ch Mode, FS = 250 MSPS
Single Ch Mode, FS = 500 MSPS, Gain = 10X
ENOBexcl
49.4
Dual Ch Mode, FS = 500 MSPS
Single Ch Mode, FS = 1000 MSPS
HD2/3
dBFS
48.5
Single Ch Mode, FS = 1000 MSPS
SFDRincl
48.2
Dual Ch Mode, FS = 500 MSPS
Single Ch Mode, FS = 1000 MSPS
SINADexcl
dBFS
Single Ch Mode, FS = 1000 MSPS, FIN = 170 MHz
Dual Ch Mode, FS = 500 MSPS
57
63
dBc
Quad Ch Mode, FS = 250 MSPS
50
70
dBc
Effective number of Bits, excluding interleaving spurs
Single Ch Mode, FS = 1000 MSPS
7.9
bits
Single Ch Mode, FS = 1000 MSPS, FIN = 170 MHz
7.4
bits
Single Ch Mode, FS = 1000 MSPS, Gain = 10X
7.6
bits
Single Ch Mode, FS = 500 MSPS
7.9
bits
Single Ch Mode, FS = 500 MSPS, Gain = 10X
7.6
bits
Dual Ch Mode, FS = 500 MSPS
7.8
bits
Quad Ch Mode, FS = 250 MSPS
7.9
bits
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However,Inc.,
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For price,
delivery, Way,
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orders:
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price,
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Analog
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Technology
9106,
Norwood,
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
02062-9106
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
781-329-4700
• Order onlineApplication
at www.analog.com
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
of their respective
owners.
Application Support: Phone: 1-800-ANALOG-D
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
AC Specifications
AVDD = 1.8V, DVDD = 1.8V, OVDD = 1.8V, 50% clock duty cycle, -1 dBFS 71 MHz input signal, Gain = 1X, RSDS output data levels unless
otherwise noted
Description
Min
Typ
Max
Unit
Xtlk,2
CrossTalk Dual Ch Mode. Signal applied to 1 channel (FIN0).
Measurement taken on one channel with full scale at FIN1.
FIN1 = 71 MHz, FIN0 = 70 MHz
65
dBc
Xtlk,4
CrossTalk Quad Ch Mode. Signal applied to 1 channel
(FIN0). Measurement taken on one channel with full scale at
FIN1. FIN1 = 71 MHz, FIN0 = 70 MHz
70
dBc
Power Supply
Single Ch: FS = 1 GSPS, Dual Ch: FS = 500 MSPS, Quad
Ch: FS = 250 MSPS.
mA
IAVDD
Analog Supply Current
270
IDVDD
Digital and output driver Supply Current
125
mA
PAVDD
Analog Power
486
mW
PDVDD
Digital Power
224
mW
PTOT
Total Power Dissipation
710
mW
PPD
Power Down Mode dissipation
15
µW
PSLP
Deep sleep Mode power dissipation
72
mW
PSLPCH
Power dissipation with all channels in sleep channel mode
(Light sleep)
153
mW
PSLPCH_SAV
Power dissipation savings per channel off (Quad Channel
mode)
139
mW
Full Power Bandwidth
650
MHz
Analog Input
FPBW
Clock Inputs
Max. Conversion Rate in Modes: Single Ch
FSmax
Dual Ch / Quad Ch
1000 /
MSPS
500 / 250
Min. Conversion Rate in Modes: Single Ch
Fsmin
120 /
Dual Ch / Quad Ch
60 / 30
MSPS
Digital and Switching Specifications
AVDD = 1.8V, DVDD = 1.8V, OVDD = 1.8V, RSDS output data levels, unless otherwise noted
Parameter
Description
Min
Typ
Max
Unit
55
% high
Clock Inputs
DC
Duty Cycle
Compliance
LVDS supported up to 700 MHz
VCK,sine
Differential input voltage swing, sine wave clock input
VCK,CMOS
VCM,CK
45
LVPECL, Sine wave, CMOS, LVDS
1500
Voltage input range CMOS (CLKN connected to ground)
Input common mode voltage. Keep voltages within ground and
voltage of OVDD
CCK
mVpp
0
A / D Converters - SMT
Parameter
VOVDD
VOVDD -0.3
0.3
Differential Input capacitance
3
V
pF
Logic inputs (CMOS)
VHI
High Level Input Voltage. VOVDD ≥ 3.0V
2
VHI
High Level Input Voltage. VOVDD = 1.7V – 3.0V
0.8 ·VOVDD
V
VLI
Low Level Input Voltage. VOVDD ≥ 3.0V
0
0.8
V
VLI
Low Level Input Voltage. VOVDD = 1.7V – 3.0V
0
0.2 ·VOVDD
V
V
IHI
High Level Input leakage Current
+/-10
µA
ILI
Low Level Input leakage Current
+/-10
µA
CI
Input Capacitance
3
pF
Data Outputs
Compliance
LVDS / RSDS
InformationFor
furnished
by delivery,
Analog Devices
believed
be accurate
and reliable.
However,Inc.,
no One
price,
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placeto orders:
Analog
Devices,
Technology
9106,
Norwood,
For price,
delivery, Way,
and toP.O.
placeBox
orders:
Analog
Devices, Inc.,
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
781-329-4700
• Order onlineApplication
at www.analog.com
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
of their respective
owners.
Application Support: Phone: 1-800-ANALOG-D
0-4
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Digital and Switching Specifications
AVDD = 1.8V, DVDD = 1.8V, OVDD = 1.8V, RSDS output data levels, unless otherwise noted
Parameter
Description
Min
Typ
Max
Unit
VOUT
Differential output voltage, LVDS
350
mV
VOUT
Differential output voltage, RSDS
150
mV
VCM
Output common mode voltage
1.2
V
Default/optional
Offset Binary/ 2’s complement
Output coding
Timing Characteristics
A / D Converters - SMT
0
tA
Aperture delay
1.5
ns
tj
Aperture jitter, One bit set to ‘1’ in jitter_ctrl
160
fsrms
Tskew
Timing skew between ADC channels
2.5
psrms
TSU
Start up time from Power Down Mode and Deep Sleep Mode to
Active Mode in µs. See section “Clock Frequency” for details.
15
µs
1
clock cycles
TSLPCH
Start up time from Sleep Channel Mode to Active Mode
TOVR
TLATHSMQ
Pipeline delay, Quad Channel Mode
32
clock cycles
TLATHSMD
Pipeline delay, Dual Channel Mode
64
clock cycles
TLATHSMS
Pipeline delay, Single Channel Mode
128
clock cycles
LVDS Output Timing Characteristics
tdata
LCLK to data delay time (excluding programmable phase shift)
TPROP
50
Clock propagation delay.
6*TLVDS +2.2
LVDS bit-clock duty-cycle
45
7*TLVDS +3.5
Frame clock cycle-to-cycle jitter
ps
7*TLVDS +5.0
ns
55
% LCLK cycle
2.5
% LCLK cycle
TEDGE
Data rise- and fall time 20% to 80%
0.7
ns
TCLKEDGE
Clock rise- and fall time 20% to 80%
0.7
ns
Table 1: Maximum Voltage Ratings
Pin
Reference pin
Rating
AVDD
AVSS
-0.3V to +2.3V
Table 2: Maximum Temperature Ratings
Operating Temperature
-40 to +85 °C
Storage Temperature
-60 to +150 °C
DVDD
DVSS
-0.3V to +2.3V
Maximum Junction Temperature
OVDD
AVSS
-0.3V to +3.9V
Thermal Resistance (Rth)
AVSS / DVSS
DVSS / AVSS
-0.3V to +0.3V
Soldering Profile Qualification
ESD Sensivity HBM
Class 1C
ESD Sensivity CDM
Class III
Analog inputs
and outputs
AVSS
-0.3V to +2.3V
CLKx
AVSS
-0.3V to +3.9V
LVDS outputs
DVSS
-0.3V to +2.3V
Digital inputs
DVSS
-0.3V to +3.9V
Applying voltages to the pins beyond those specified in
Table 1 could cause permanent damage to the circuit.
0-5
µs
Out of range recovery time
110 °C
29 °C/W
J-STD-020
ELECTROSTATIC SENSITIVE DEVICE
OBSERVE HANDLING PRECAUTIONS
Stresses above those listed under Absolute Maximum
Ratings may cause permanent damage to the device. This
is a stress rating only; functional operation of the device
at these or any other conditions above those indicated in
the operational section of this specification is not implied.
Exposure to absolute maximum rating conditions for
extended periods may affect device reliability.
InformationFor
furnished
by delivery,
Analog Devices
believed
be accurate
and reliable.
However,Inc.,
no One
price,
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placeto orders:
Analog
Devices,
Technology
9106,
Norwood,
For price,
delivery, Way,
and toP.O.
placeBox
orders:
Analog
Devices, Inc.,
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
781-329-4700
• Order onlineApplication
at www.analog.com
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
of their respective
owners.
Application Support: Phone: 1-800-ANALOG-D
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Pin Configuration and Description
Figure 2: Package diagram
Table 3: Pin Descriptions
Pin Name
Description
Pin Number
# Of Pins
AVDD
Analog power supply, 1.8V
1, 36
2
CSN
Chip select enable. Active low
2
1
SDATA
Serial data input
3
1
SCLK
Serial clock input
4
1
RESETN
Reset SPI interface. Active low
5
1
PD
Power-down input. Activate after applying power in order to initialize the ADC correctly.
Alternatively use the SPI power down feature
6
1
DVDD
Digital and I/O power supply, 1.8V
7, 30
2
DVSS
Digital ground
8, 29
2
DP1A
LVDS channel 1A, positive output
9
1
DN1A
LVDS channel 1A, negative output
10
1
DP1B
LVDS channel 1B, positive output
11
1
1
DN1B
LVDS channel 1B, negative output
12
DP2A
LVDS channel 2A, positive output
13
1
DN2A
LVDS channel 2A, negative output
14
1
DP2B
LVDS channel 2B, positive output
15
1
DN2B
LVDS channel 2B, negative output
16
1
LCLKP
LVDS bit clock, positive output
17
1
LCLKN
LVDS bit clock, negative output
18
1
InformationFor
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and reliable.
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9106,
Norwood,
For price,
delivery, Way,
and toP.O.
placeBox
orders:
Analog
Devices, Inc.,
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
781-329-4700
• Order onlineApplication
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Support: Phone: 1-800-ANALOG-D
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owners.
Application Support: Phone: 1-800-ANALOG-D
A / D Converters - SMT
0
0-6
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Table 3: Pin Descriptions
A / D Converters - SMT
0
0-7
Pin Name
Description
Pin Number
# Of Pins
FCLKP
LVDS frame clock (1X), positive output
19
1
FCLKN
LVDS frame clock (1X), negative output
20
1
DP3A
LVDS channel 3A, positive output
21
1
DN3A
LVDS channel 3A, negative output
22
1
DP3B
LVDS channel 3B, positive output
23
1
DN3B
LVDS channel 3B, negative output
24
1
DP4A
LVDS channel 4A, positive output
25
1
DN4A
LVDS channel 4A, negative output
26
1
DP4B
LVDS channel 4B, positive output
27
1
DN4B
LVDS channel 4B, negative output
28
1
AVSS2
Analog ground domain 2
31
1
AVDD2
Analog power supply domain 2, 1.8V
32
1
OVDD
Digital CMOS Inputs supply voltage
33
1
CLKN
Negative differential input clock.
34
1
CLKP
Positive differential input clock
35
1
IN4
Negative differential input signal, channel 4
37
1
1
IP4
Positive differential input signal, channel 4
38
AVSS
Analog ground
39, 42, 45
3
IN3
Negative differential input signal, channel 3
40
1
IP3
Positive differential input signal, channel 3
41
1
IN2
Negative differential input signal, channel 2
43
1
IP2
Positive differential input signal, channel 2
44
1
IN1
Negative differential input signal, channel 1
46
1
IP1
Positive differential input signal, channel 1
47
1
VCM
Common mode output pin, 0.5*AVDD
48
1
InformationFor
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9106,
Norwood,
For price,
delivery, Way,
and toP.O.
placeBox
orders:
Analog
Devices, Inc.,
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
781-329-4700
• Order onlineApplication
at www.analog.com
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
of their respective
owners.
Application Support: Phone: 1-800-ANALOG-D
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Start up Initialization
As part of the HMCAD1511 power-on sequence both a reset and a power down cycle have to be applied to ensure
correct start-up initialization. Make sure that the supply voltages are properly settled before the start up initialization
is being performed. Reset can be done in one of two ways:
1. By applying a low-going pulse (minimum 20 ns) on the RESETN pin (asynchronous).
2. By using the serial interface to set the ‘rst’ bit high. Internal registers are reset to default values when
this bit is set. The ‘rst’ bit is self-reset to zero. When using this method, do not apply any low-going
pulse on the RESETN pin.
Power down cycling can be done in one of two ways:
1. By applying a high-going pulse (minimum 20 ns) on the PD pin (asynchronous).
Serial Interface
The HMCAD1511 configuration registers can be accessed through a serial interface formed by the pins SDATA (serial
interface data), SCLK (serial interface clock) and CSN (chip select, active low). The following occurs when CSN is set
low:
•
Serial data are shifted into the chip
•
At every rising edge of SCLK, the value present at SDATA is latched
•
SDATA is loaded into the register every 24th rising edge of SCLK
Multiples of 24-bit words data can be loaded within a single active CSN pulse. If more than 24 bits are loaded into
SDATA during one active CSN pulse, only the first 24 bits are kept. The excess bits are ignored. Every 24-bit word is
divided into two parts:
•
The first eight bits form the register address
•
The remaining 16 bits form the register data
Acceptable SCLK frequencies are from 20MHz down to a few hertz. Duty-cycle does not have to be tightly controlled.
Timing Diagram
Figure 4 shows the timing of the serial port interface. Table 4 explains the timing variables used in figure 4.
thi
tlo
tcs
CSN
tck
ts
tchi
tch
th
0
A / D Converters - SMT
2. By cycling the ‘pd’ bit in register 0Fhex to high (reg value ‘0200’hex) and then low (reg value ‘0000’hex).
SCLK
SDATA
A7
A6
A5
A4
A3
A2
A1
A0
D15 D14 D13 D12 D11 D10 D9
D8
D7
D6
D5
D4
D3 D2
D1
D0
Figure 3: Serial Port Interface timing
Table 4: Serial Port Interface Timing Definitions
Parameter
Description
Minimum value
Unit
tcs
Setup time between CSN and SCLK
8
ns
tch
Hold time between CSN and SCLK
8
ns
thi
SCLK high time
20
ns
tlo
SCLK low time
20
ns
tck
SCLK period
50
ns
ts
Data setup time
5
ns
th
Data hold time
5
ns
Information furnished by Analog Devices is believed to be accurate and reliable. However, no
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Analog Devices,
Inc., One
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responsibility
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use, nororders:
for any infringements
of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
rights of third parties that may result from its use. Specifications subject to change without notice. No
MA 02062-9106Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
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• Order onlineApplication
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Application Support: Phone: 1-800-ANALOG-D
0-8
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Timing Diagrams
N+31
N+32
N+33
Analog input
N+35
N+34
Input clock
LCLKP
LCLKN
FCLKP
FCLKN
A / D Converters - SMT
0
TLVDS
DxnA
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0
N-4 N-4 N-4 N-4 N-4 N-4 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N
D1
N
D2
N
D3
N
D4
N
D5
N
D6
N
DxnB
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-3 N-3 N-3 N-3 N-3 N-3 N-1 N-1 N-1 N-1 N-1 N-1 N-1 N-1 N+1 N+1 N+1 N+1 N+1 N+1 N+1
TPROP
Figure 4: Quad channel - LVDS timing 8-bit output
N+62
N+63
N+64
N+65
N+66
Analog input
N+67
N+70
N+68
N+69
Input clock
LCLKP
LCLKN
FCLKP
FCLKN
TLVDS
Dx1A / Dx3A
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0
N-8 N-8 N-8 N-8 N-8 N-8 N-4 N-4 N-4 N-4 N-4 N-4 N-4 N-4 N
D1
N
D2
N
D3
N
D4
N
D5
N
D6
N
Dx1B / Dx3B
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-7 N-7 N-7 N-7 N-7 N-7 N-3 N-3 N-3 N-3 N-3 N-3 N-3 N-3 N+1 N+1 N+1 N+1 N+1 N+1 N+1
Dx2A / Dx4A
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-6 N-6 N-6 N-6 N-6 N-6 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N+2 N+2 N+2 N+2 N+2 N+2 N+2
Dx2B / Dx4B
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-5 N-5 N-5 N-5 N-5 N-5 N-1 N-1 N-1 N-1 N-1 N-1 N-1 N-1 N+3 N+3 N+3 N+3 N+3 N+3 N+3
TPROP
Figure 5: Dual channel - LVDS timing 8-bit output
0-9
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
N+124 N+126 N+128
N+130
N+132
Analog input
N+134
N+136 N+138
N+140
Input clock
TLVDS
Dx1A
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0
N-16 N-16 N-16 N-16 N-16 N-16 N-8 N-8 N-8 N-8 N-8 N-8 N-8 N-8 N
D1
N
D2
N
D3
N
D4
N
D5
N
D6
N
Dx1B
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-15 N-15 N-15 N-15 N-15 N-15 N-7 N-7 N-7 N-7 N-7 N-7 N-7 N-7 N+1 N+1 N+1 N+1 N+1 N+1 N+1
Dx2A
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-14 N-14 N-14 N-14 N-14 N-14 N-6 N-6 N-6 N-6 N-6 N-6 N-6 N-6 N+2 N+2 N+2 N+2 N+2 N+2 N+2
Dx2B
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-13 N-13 N-13 N-13 N-13 N-13 N-5 N-5 N-5 N-5 N-5 N-5 N-5 N-5 N+3 N+3 N+3 N+3 N+3 N+3 N+3
Dx3A
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-12 N-12 N-12 N-12 N-12 N-12 N-4 N-4 N-4 N-4 N-4 N-4 N-4 N-4 N+4 N+4 N+4 N+4 N+4 N+4 N+4
Dx3B
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-11 N-11 N-11 N-11 N-11 N-11 N-3 N-3 N-3 N-3 N-3 N-3 N-3 N-3 N+5 N+5 N+5 N+5 N+5 N+5 N+5
Dx4A
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-10 N-10 N-10 N-10 N-10 N-10 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N+6 N+6 N+6 N+6 N+6 N+6 N+6
Dx4B
D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6
N-9 N-9 N-9 N-9 N-9 N-9 N-1 N-1 N-1 N-1 N-1 N-1 N-1 N-1 N+7 N+7 N+7 N+7 N+7 N+7 N+7
TPROP
Figure 6: Single channel - LVDS timing 8-bit output
TLVDS
LCLKP
LCLKN
Dxxx
0
A / D Converters - SMT
LCLKP
LCLKN
FCLKP
FCLKN
TLVDS /2
tdata
Figure 7: LVDS data timing
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0 - 10
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Register Map Summary
Table 5: Register Map
Name
rst *
A / D Converters - SMT
0
0 - 11
Description
Default
D15 D14 D13 D12 D11 D10 D9 D8
D7
D6 D5 D4 D3
Self-clearing software reset.
Inactive
sleep4_ch
Channel-specific sleep mode for a
Quad Channel setup.
Inactive
sleep2_ch
Channel-specific sleep mode for a Dual
Channel setup.
Inactive
sleep1_ch1
Channel-specific sleep mode for a
Single Channel setup.
Inactive
sleep
Go to sleep-mode.
Inactive
pd
Go to power-down.
Inactive
Configures the PD pin function.
PD pin configured
for power-down
mode
ilvds_lclk
LVDS current drive programmability for
LCLKP and LCLKN pins.
3.5 mA drive
ilvds_frame
LVDS current drive programmability for
FCLKP and FCLKN pins.
3.5 mA drive
ilvds_dat
LVDS current drive programmability for
output data pins.
3.5 mA drive
en_lvds_
term
Enables internal termination for LVDS
buffers.
Termination
disabled
X
term_lclk
Programmable termination for LCLKN
and LCLKP buffers.
Termination
disabled
1
term_frame
Programmable termination for FCLKN
and FCLKP buffers.
Termination
disabled
1
term_dat
Programmable termination for output
data buffers.
Termination
disabled
1
invert4_ch
Channel specific swapping of the
analog input signal for a Quad Channel
setup.
IPx is positive
input
invert2_ch
Channel specific swapping of the
analog input signal for a Dual Channel
setup.
IPx is positive
input
invert1_ch1
Channel specific swapping of the
analog input signal for a Single
Channel setup.
IPx is positive
input
X
en_ramp
Enables a repeating full-scale ramp
pattern on the outputs.
Inactive
dual_
custom_pat
Enable the mode wherein the output
toggles between two defined codes.
single_
custom_pat
pd_pin_cfg
D2 D1 D0
X
X
X
X
X
Hex
Address
0x00
X
X
X
0x0F
X
X
X
X
X
X
X
X
X
X
X
0x11
X
X
X
X
X
0x12
X
X
X
X
X
X
X
X
X
X
0x24
X
X
X
0
0
Inactive
0
X
0
Enables the mode wherein the output
is a constant specified code.
Inactive
0
0
X
bits_custom1
Bits for the single custom pattern and
for the first code of the dual custom
pattern.
0x00
X
X
X
X
X
X
X
X
0x26
bits_custom2
Bits for the second code of the dual
custom pattern.
0x00
X
X
X
X
X
X
X
X
0x27
cgain4_ch1
Programmable coarse gain channel 1
in a Quad Channel setup.
1x gain
cgain4_ch2
Programmable coarse gain channel 2
in a Quad Channel setup.
1x gain
cgain4_ch3
Programmable coarse gain channel 3
in a Quad Channel setup.
1x gain
cgain4_ch4
Programmable coarse gain channel 4
in a Quad Channel setup.
1x gain
0x25
X
X
X
X
X
X
X
X
0x2A
X
X
X
X
X
X
X
X
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Table 5: Register Map
Description
Default
cgain2_ch1
Programmable coarse gain channel 1
in a Dual Channel setup.
1x gain
cgain2_ch2
Programmable coarse gain channel 2
in a Dual Channel setup.
1x gain
cgain1_ch1
Programmable coarse gain channel 1
in a Single Channel setup.
1x gain
Clock jitter adjustment.
160 fsrms
Set number of channels: 1, 2 or 4
channels.
4 channels
Define clock divider factor: 1, 2, 4 or 8
Divide by 1
Configures the coarse gain setting
x-gain enabled
Enable use of fine gain.
Disabled
fgain_
branch1
Programmable fine gain for branch1.
0dB gain
fgain_
branch2
Programmable fine gain for branch 2.
0dB gain
fgain_
branch3
Programmable fine gain for branch 3.
0dB gain
fgain_
branch4
Programmable fine gain for branch 4.
0dB gain
fgain_
branch5
Programmable fine gain for branch 5.
0dB gain
fgain_
branch6
Programmable fine gain for branch 6.
0dB gain
fgain_
branch7
Programmable fine gain for branch 7.
0dB gain
fgain_
branch8
Programmable fine gain for branch 8.
0dB gain
inp_sel_adc1
Input select for adc 1.
Signal input:
IP1/IN1
inp_sel_adc2
Input select for adc 2.
Signal input: IP2/
IN2
inp_sel_adc3
Input select for adc 3.
Signal input: IP3/
IN3
inp_sel_
adc4
Input select for adc 4.
Signal input: IP4/
IN4
phase_ddr
Controls the phase of the LCLK output
relative to data.
90 degrees
jitter_ctrl
channel_
num *
clk_divide
*
coarse_
gain_cfg
fine_gain_en
pat_deskew
D15 D14 D13 D12 D11 D10 D9 D8
D7
D6 D5 D4 D3
X
X
X
X
X
X
X
X
X
X
X
X
D2 D1 D0
X
X
Hex
Address
X
0x2B
X
X
X
X
X
X
X
X
0x30
0x31
X
X
X
0x33
X
X
X
X
X
X
X
0x34
X
X
X
X
X
X
X
X
X
X
X
X
X
X
0x35
X
X
X
X
X
X
X
X
X
X
X
X
X
X
0x36
X
X
X
X
X
X
X
X
X
X
X
X
X
X
0x37
X
X
X
X
X
X
X
X
X
X
X
0
0x3A
X
X
X
X
0
X
X
X
X
0
X
0
A / D Converters - SMT
Name
0x3B
X
X
X
X
0
X
X
0x42
Enable deskew pattern mode.
Inactive
0
X
pat_sync
Enable sync pattern mode.
Inactive
X
0
btc_mode
Binary two’s complement format for
ADC output data.
Straight offset
binary
msb_first
Serialized ADC output data comes out
with MSB first.
LSB first
adc_curr
ADC current scaling.
Nominal
VCM buffer driving strength control.
Nominal
Controls LVDS power down mode
High z-mode
0x45
ext_vcm_bc
lvds_pd_
mode
X
0x46
X
X
X
X
0x50
X
X
X
0x52
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0 - 12
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Table 5: Register Map
Name
Description
Default
low_clk_
freq *
Low clock frequency used.
Inactive
lvds_
advance
Advance LVDS data bits and frame
clock by one clock cycle
Inactive
0
Delay LVDS data bits and frame clock
by one clock cycle
Inactive
Fine adjust ADC full scale range
0% change
Controls start-up time.
‘000’
lvds_delay
fs_cntrl
startup_ctrl
*
D15 D14 D13 D12 D11 D10 D9 D8
D7
D6 D5 D4 D3
D2 D1 D0
X
Hex
Address
0
0
0
X
0
0
0
X
0
0
0
0
X
X
X
X
X
0x55
X
X
X
0x56
X
0x53
Undefined register addresses must not be written to; incorrect behavior may be the result.
0
Unused register bits (blank table cells) must be set to ‘0’ when programming the registers.
All registers can be written to while the chip is in power down mode.
A / D Converters - SMT
* These registers require a power down cycle when written to (See Start up Initialization).
Register Description
Software Reset
Name
rst
Description
Default
Self-clearing software reset.
Inactive
D15
D14
D13
D12 D11 D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Hex
Address
X
0x00
Setting the rst register bit to ‘1’, restores the default value of all the internal registers including the rst register bit
itself.
Modes of Operation and Clock Divide Factor
Name
Description
Default
channel_
num
Set number of channels: 1, 2 or 4
channels.
4 channels
clk_divide
Define clock divider factor: 1, 2, 4 or 8
Divide by 1
D15 D14 D13 D12 D11 D10 D9
D8
D7
D6
D5
D4
D3
D2 D1 D0
X
X
Hex
Address
X
0x31
X
X
The HMCAD1511 has three main operating modes controlled by the register bits channel_num as defined in
table 6. Power down mode, as described in section ‘Startup Initialization’, must be activated after or during a change
of operating mode to ensure correct operation. All active operating modes utilize interleaving to achieve high sampling
speed. Quad channel mode interleaves 2 ADC branches, dual channel mode interleaves 4 ADC branches, while
single channel mode interleave all 8 ADC branches.
Table 6: Modes of operation
channel_num
Mode of operation
Description
0
0
1
Single channel
Single channel by interleaving ADC1 to ADC4
0
1
0
Dual channel
Dual channel where channel 1 is made by
interleaving ADC1 and ADC2, channel 2 by
interleaving ADC3 and ADC4
1
0
0
Quad channel
Quad channel where channel 1 corresponds to
ADC1, channel2 to ADC2, channel3 to ADC3 and
channel 4 to ADC4
Only one of the 3bits should be activated at the same time.
0 - 13
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
clk_divide allows the user to apply an input clock frequency higher than the sampling rate. The clock divider
will divide the input clock frequency by a factor of 1, 2, 4, or 8, defined by the clk_divide register. By setting the
clk_divide value relative to the channel_num value, the same input clock frequency can be used for all
settings on number of channels. e.g: When increasing the number of channels from 1 to 4, the maximum sampling
rate is reduced by a factor of 4. By letting clk_divide follow the channel_num value, and change it from 1 to
4, the internal clock divider will provide the reduction of the sampling rate without changing the input clock frequency.
Table 7: Clock Divider Factor
Clock Divider Factor
Sampling rate (FS)
00 (default)
1
Input clock frequency / 1
01
2
Input clock frequency / 2
10
4
Input clock frequency / 4
11
8
Input clock frequency / 8
Input Select
Name
Description
Default
inp_sel_adc1
Input select for adc 1.
Signal input:
IP1/IN1
inp_sel_adc2
Input select for adc 2.
Signal input:
IP2/IN2
inp_sel_adc3
Input select for adc 3.
Signal input:
IP3/IN3
Input select for adc 4.
Signal input:
IP4/IN4
inp_sel_adc4
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
X
X
X
X
0
Hex
Address
0x3A
X
X
X
X
0
X
X
X
X
0
0x3B
X
X
X
X
0
Each ADC is connected to the four input signals via a full flexible cross point switch, set up by inp_sel_adcx. In single
channel mode, any one of the four inputs can be selected as valid input to the single ADC channel. In dual channel mode, any two of the four inputs can be selected to each ADC channel. In quad channel mode any input can be
assigned to any ADC channel. The switching of inputs can be done during normal operation, and no additional actions
are needed. The switching will occur instantaneously at the end of each SPI command.
Table 8: Select
inp_sel_adcx
Selected Input
0001 0
IP1/IN1
0010 0
IP2/IN2
0100 0
IP3/IN3
1000 0
IP4/IN4
other
Do not use
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One
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MA
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rights of third parties that may result from its use. Specifications subject to change without notice. No
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license is granted by implication or otherwise under
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0
A / D Converters - SMT
clk_divide
0 - 14
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
inp_sel_adc1
IP1 / IN1
inp_sel_adc2
ADC 1
IP2 / IN2
inp_sel_adc3
ADC 2
IP3 / IN3
inp_sel_adc4
IP4 / IN4
A / D Converters - SMT
0
ADC 4
Cross Point Switch
(Analog Mux)
Figure 8: ADC input signals through Cross Point Switch
Full-Scale Control
Name
Description
Default
fs_cntrl
Fine adjust ADC full scale range
0% change
D15 D14 D13 D12 D11 D10
D9
D8
D7
D6
D5
D4
D3
X
X
X
D2 D1 D0
X
X
X
Hex
Address
0x55
The full-scale voltage range of HMCAD1511 can be adjusted using an internal 6-bit DAC controlled by the fs_cntrl
register. Changing the value in the register by one step, adjusts the full-scale range by approximately 0.3%. This
leads to a maximum range of ±10% adjustment. Table 9 shows how the register settings correspond to the full-scale
range. Note that the values for full-scale range adjustment are approximate. The DAC is, however, guaranteed to be
monotonous.
The full-scale control and the programmable gain features differ in two major ways:
1. The full-scale control feature controls the full-scale voltage range in an analog fashion, whereas the
programmable gain is a digital feature.
2. The programmable gain feature has much coarser gain steps and larger range than the full-scale
control.
Table 9: Register Values with
Corresponding Change in Full-Scale Range
fs_cntrl
0 - 15
ADC 3
Full-Scale Range Adjustment
111111
9.70%
111110
9.40%
100001
0.30%
100000
0%
011111
-0.3%
000001
-9.7%
000000
-10%
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Current Control
Name
Description
Default
adc_curr
ADC current scaling.
Nominal
ext_vcm_bc
VCM buffer driving strength control.
Nominal
D15 D14 D13 D12 D11 D10 D9
D8
D7
D6
D5
D4
X
X
D3
D2 D1 D0
X
X
X
Hex
Address
0x50
There are two registers that impact performance and power dissipation.
The adc_curr register scales the current consumption in the ADC core. The performance is guaranteed at the nominal setting. Lower power consumption can be achieved by reducing the adc_curr value, see table 10. The impact on
performance is low for settings down to minimum, but will depend on the ADC sampling rate.
Table 10: ADC Current Control Settings
ADC Core Current
100
-40% (lower performance)
101
-30%
110
-20%
111
-10%
000 (default)
Nominal
001
Do not use
010
Do not use
011
Do not use
0
The ext_vcm_bc register controls the driving strength in the buffer supplying the voltage on the VCM pin. If this pin is
not in use, the buffer can be switched off. If current is drawn from the VCM pin, the driving strength can be increased
to keep the voltage on this pin at the correct level.
Table 11: External Common Mode Voltage
Buffer Driving Strength
ext_vcm_bc
VCM buffer driving strength (µA) Max
current sinked/sourced from VCM pin with
< 20 mV voltage change.
00
Off (VCM floating)
01 (default)
±20
10
±400
11
±700
A / D Converters - SMT
adc_curr
Start-up and Clock Jitter Control
Name
Description
Default
startup_ctrl
Controls start-up time.
'000'
jitter_ctrl
Clock jitter adjustment.
160 fsrms
D15
D14
D13
D12 D11 D10
D9
D8
D7
D6
D5
D4
D3
X
X
X
X
X
Hex
Address
D2
D1
D0
X
X
X
0x56
X
X
X
0x30
To optimize start up time, a register is provided where the start-up time in number of clock cycles can be set. Some
internal circuitry have start up times that are clock frequency independent. Default counter values are set to accommodate these start up times at the maximum clock frequency (sampling rate). This will lead to increased start up times
at low clock frequencies. Setting the value of this register to the nearest higher clock frequency will reduce the count
values of the internal counters, to better fit the actual start up time, such that the start up time will be reduced. The
start up times from power down and sleep modes are changed by this register setting. If the clock divider is used (set
to other than 1), the input clock frequency must be divided by the divider factor to find the correct clock frequency
range (see table 7).
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Table 12: Start-Up Time Control Settings
Quad Channel
Dual Channel
startup_ctrl
Clock
Frequency
Range (MSPS)
Startup Delay
(clock cycles)
Startup Delay
(µs)
startup_ctrl
Clock
Frequency
Range (MSPS)
Startup Delay
(clock cycles)
Startup Delay
(µs)
100
160 - 250
3072
12.3 - 19.2
100
320 - 500
6144
12.3 - 19.2
000
100 - 160
1984
12.4 - 19.8
000
200 - 320
3968
12.4 - 19.8
001
65 - 100
1280
12.8 - 19.7
001
130 – 200
2560
12.8 - 19.7
101
40 - 65
840
12.9 - 21
101
80 - 130
1680
12.9 - 21
011
30 - 40
520
13 - 17.3
011
60 – 80
1040
13 - 17.3
other
Do not use
-
-
other
Do not use
-
-
startup_ctrl
Clock
frequency
range (MSPS)
Startup Delay
(clock cycles)
Startup delay
(µs)
Single Channel
A / D Converters - SMT
0
0 - 17
100
640 - 1000
12288
12.3 - 19.2
000
400 - 640
7936
12.4 - 19.8
001
260 - 400
5120
12.8 - 19.7
101
160 - 260
3360
12.9 - 21
011
120 - 160
2080
13 - 17.3
other
Do not use
-
-
jitter_ctrl allows the user to set a trade-off between power consumption and clock jitter. If all bits in the register
is set low, the clock signal is stopped. The clock jitter depends on the number of bits set to ‘1’ in the jitter_ctrl
register. Which bits are set high does not affect the result.
Table 13: Clock Jitter Performance
Number of bits to '1' in
jitter_ctrl
Clock Jitter
Performance (fsrms)
Module Current
Consumption (mA)
1
160
1
2
150
2
3
136
3
4
130
4
5
126
5
6
124
6
7
122
7
8
120
8
0
Clock stopped
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02062-9106
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without
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
LVDS Output Configuration and Control
Description
Default
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
low_clk_freq
Low clock frequency used.
Inactive
lvds_advance
Advance LVDS data bits and
frame clock by one clock
cycle
Inactive
0
lvds_delay
Delay LVDS data bits and
frame clock by one clock
cycle
Inactive
X
phase_ddr
Controls the phase of the
LCLK output relative to data.
90 degrees
btc_mode
Binary two's complement
format for ADC output data.
Straight offset
binary
msb_first
Serialized ADC output data
comes out with MSB first.
LSB first
X
D5
D4
D3
D2
D1
D0
X
0
0
0
X
0
0
0
0
0
0
0
X
Hex
Address
0x53
0x42
X
0x46
X
The HMCAD1511 uses an 8-bit serial LVDS output interface as shown in the Timing Diagrams section. The different
selection of number of channels uses the LVDS outputs as defined by table 14.
Table 14: Use of LVDS Outputs
Channel Set-Up
LVDS Outputs Used
Single channel
D1A, D1B, D2A, D2B, D3A, D3B, D4A, D4B
Dual channel, channel 1
D1A, D1B, D2A, D2B
Dual channel, channel 2
D3A, D3B, D4A, D4B
Quad channel, channel 1
D1A, D1B
Quad channel, channel 2
D2A, D2B
Quad channel, channel 3
D3A, D3B
Quad channel, channel 4
D4A, D4B
Maximum data output bit-rate for HMCAD1511 is 1 Gb/s. The maximum sampling rate for the different configurations is
given by table 15. The sampling rate is set by the frequency of the input clock (FS). The frame-rate, i.e. the frequency
of the FCLK signal on the LVDS outputs, depends on the selected mode and the sampling frequency (FS) as defined
in table 16.
Table 15: Maximum Sampling Rate for Different
HMCAD1511 Configurations
Product
Single Channel
(MSPS)
Dual Channel
(MSPS)
Quad Channel
(MSPS)
HMCAD1511
1000
500
250
0
A / D Converters - SMT
Name
Table 16: Output Data Frame Rate
Mode of Operation
Frame-Rate (FCLK Frequency)
Single channel
FS / 8
Dual channel
FS / 4
Quad channel
FS / 2
If the HMCAD1511 device is used at a low sampling rate the register bit low_clk_freq has to be set to ‘1’. See table 17
for when to use this register bit for the different modes of operation.
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Table 17: Use of Register Bit low_clk_freq
Mode of Operation
Limit When low_clk_freq Should Be Activated
Single channel
FS < 240 MHz
Dual channel
FS < 120 MHz
Quad channel
FS < 60 MHz
To ease timing in the receiver when using multiple HMCAD1511, the device has the option to adjust the timing of the
output data and the frame clock. The propagation delay with respect to the ADC input clock can be moved one LVDS
clock cycle forward or backward, by using lvds_delay and lvds_advance, respectively. See figure 10 for details. Note
that LCLK is not affected by lvds_delay or lvds_advance settings.
Input clock
A / D Converters - SMT
0
0 - 19
LCLKP
LCLKN
TLVDS
TPROP
default:
FCLKN
FCLKP
Dxxx
D7 D0 D1 D2 D3 D4 D5 D6 D7 D0
N-4 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N
TPROP
lvds_delay = '1':
D6 D7 D0 D1 D2 D3 D4 D5 D6 D7
N-4 N-4 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N-2
TPROP
lvds_advance = '1':
D2
N
D3
N
D4
N
D5
N
D6
N
TLVDS
FCLKP
FCLKN
Dxxx
D1
N
D0
N
D1
N
D2
N
D3
N
D4
N
D5
N
D2
N
D3
N
D4
N
D5
N
D6
N
D7
N
TLVDS
FCLKP
FCLKN
Dxxx
D0 D1 D2 D3 D4 D5 D6 D7 D0
N-2 N-2 N-2 N-2 N-2 N-2 N-2 N-2 N
D1
N
Figure 9: LVDS output timing adjustment
The LVDS output interface of HMCAD1511 is a DDR interface. The default setting is with the LCLK rising and falling
edge transitions in the middle of alternate data windows. The phase for LCLK can be programmed relative to the
output frame clock and data bits using phase_ddr. The LCLK phase modes are shown in figure 11. The default
timing is identical to setting phase_ddr=’10’.
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
PHASE_DDR='00' (270 deg)
FCLKN
FCLKP
LCLKP
LCLKN
Dxx
PHASE_DDR='10' (90 deg)
FCLKN
FCLKP
LCLKN
LCLKP
Dxx
PHASE_DDR='11' (0 deg)
FCLKN
FCLKP
LCLKP
LCLKN
0
Dxx
Figure 10: Phase programmability modes for LCLK
The default data output format is offset binary. Two’s complement mode can be selected by setting the btc_mode bit
to ‘1’ which inverts the MSB.
The first bit of the frame (following the rising edge of FCLKP) is the LSB of the ADC output for default settings. Programming the msb_first mode results in reverse bit order, and the MSB is output as the first bit following the FCLKP
rising edge.
LVDS Drive Strength Programmability
Name
Description
Default
ilvds_lclk
LVDS current drive programmability
for LCLKP and LCLKN pins.
3.5 mA drive
ilvds_frame
LVDS current drive programmability
for FCLKP and FCLKN pins.
3.5 mA drive
ilvds_dat
LVDS current drive programmability
for output data pins.
3.5 mA drive
D15 D14 D13 D12 D11 D10
D9
D8
D7
D6
X
X
X
D5
X
D4
X
D3
D2
D1
D0
X
X
X
Hex
Address
0x11
X
The current delivered by the LVDS output drivers can be configured as shown in table 18. The default current is
3.5mA, which is what the LVDS standard specifies.
To reduce power consumption in the HMCAD1511, Reduced Swing Data Signaling (RSDS), is recommended. The
output current drive setting should then be 1.5 mA.
A / D Converters - SMT
Dxx
PHASE_DDR='01' (180 deg)
FCLKN
FCLKP
LCLKN
LCLKP
Setting the ilvds_lclk register controls the current drive strength of the LVDS clock output on the LCLKP and
LCLKN pins.
Setting the ilvds_frame register controls the current drive strength of the frame clock output on the FCLKP and
FCLKN pins.
Setting the ilvds_dat register controls the current drive strength of the data outputs on the D[8:1]P and D[8:1]N pins.
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Table 18: LVDS Output
Drive Strength for LCLK, FCLK & Data
A / D Converters - SMT
0
0 - 21
ilvds_*
LVDS Drive Strength
000
3.5 mA (default)
001
2.5 mA
101
1.5 mA (RSDS)
011
0.5 mA
100
7.5 mA
101
6.5 mA
110
5.5 mA
111
4.5 mA
LVDS Internal Termination Programmability
Name
Description
Default
D15 D14 D13 D12 D11 D10 D9
en_lvds_term
Enables internal termination for LVDS
buffers.
Termination
disabled
X
term_lclk
Programmable termination for LCLKN
and LCLKP buffers.
Termination
disabled
1
term_frame
Programmable termination for FCLKN
and FCLKP buffers.
Termination
disabled
1
term_dat
Programmable termination for output
data buffers.
Termination
disabled
1
D8
D7
D6
D5
D4
D3
D2 D1 D0
X
X
Hex
Address
X
0x12
X
X
X
X
X
X
The off-chip load on the LVDS buffers may represent a characteristic impedance that is not perfectly matched with
the PCB traces. This may result in reflections back to the LVDS outputs and loss of signal integrity. This effect can be
mitigated by enabling an internal termination between the positive and negative outputs of each LVDS buffer. Internal
termination mode can be selected by setting the en_lvds_term bit to ‘1’. Once this bit is set, the internal termination
values for the bit clock, frame clock, and data buffers can be independently programmed using sets of three bits. Table
19 shows how the internal termination of the LVDS buffers are programmed. The values are typical values and can
vary by up to ±20% from device to device and across temperature.
Table 19: LVDS Output Internal
Termination for LCLK, FCLK and Data
term_*
LVDS Internal Termination
000
Termination disabled
001
260Ω
101
150Ω
011
94Ω
100
125Ω
101
80Ω
110
66Ω
111
55Ω
InformationFor
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responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
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Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
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• Order onlineApplication
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�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Power Mode Control
Name
Description
Default
sleep4_ch
Channel-specific sleep mode for a
Quad Channel setup.
Inactive
sleep2_ch
Channel-specific sleep mode for a
Dual Channel setup.
Inactive
sleep1_ch1
Channel-specific sleep mode for a
Single Channel setup.
Inactive
sleep
Go to sleep-mode.
Inactive
pd
Go to power-down.
Inactive
Configures the PD pin function.
PD pin configured
for power-down
mode
lvds_pd_mode Controls LVDS power down mode
D8
D7
D6 D5
D4
D3
X
X
D2 D1 D0
X
X
Hex
Address
X
X
X
0x0F
X
X
X
X
High z-mode
X
0x52
The HMCAD1511 device has several modes for power management, from sleep modes with short start up time to full
power down with extremely low power dissipation. There are two sleep modes, both with the LVDS clocks (FCLK,
LCLK) running, such that the synchronization with the receiver is maintained. The first is a light sleep mode (sleep*_
ch) with short start up time, and the second a deep sleep mode (sleep) with the same start up time as full power down.
Setting sleep4_ch = ‘1’ sets channel in a Quad Channel setup in sleep mode. Setting sleep2_ch = ‘1’ sets
channel in a Dual Channel setup in sleep mode. Setting sleep1_ch1 = ‘1’ sets the ADC channel in a Single Channel setup in sleep mode. This is a light sleep mode with short start up time.
Setting sleep = ‘1’, puts all channels to sleep, but keeps FCLK and LCLK running to maintain LVDS synchronization.
The start up time is the same as for complete power down. Power consumption is significantly lower than for setting
all channels to sleep by using the sleep*_ch register.
Setting pd = ‘1’ completely powers down the chip, including the band-gap reference circuit. Start-up time from this
mode is significantly longer than from the sleep*_ch mode. The synchronization with the LVDS receiver is lost since
LCLK and FCLK outputs are put in high-Z mode.
Setting pdn_pin_cfg = ‘x1’ configures the circuit to enter sleep channel mode (all channels off) when the PD pin
is set high. This is equal to setting all channels to sleep by using sleep*_ch. The channels can not be powered down
separately using the PD pin. Setting pdn_pin_cfg = ‘10’ configures the circuit to enter (deep) sleep mode when
the PD pin is set high (equal to setting sleep=’1’). When pdn_pin_cfg = ‘00’, which is the default, the circuit enters
the power down mode when the PD pin is set high.
The lvds_pd_mode register configures whether the LVDS data output drivers are powered down or kept alive in sleep
and sleep channel modes. LCLK and FCLK drivers are not affected by this register, and are always on in sleep and
sleep channel modes. If lvds_pd_mode is set low (default), the LVDS output is put in high Z mode, and the driver is
completely powered down. If lvds_pd_mode is set high, the LVDS output is set to constant 0, and the driver is still on
during sleep and sleep channel modes.
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responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
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Phone: 781-329-4700 • Order online at www.analog.com
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• Order onlineApplication
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Application Support: Phone: 1-800-ANALOG-D
0
A / D Converters - SMT
pd_pin_cfg
D15 D14 D13 D12 D11 D10 D9
0 - 22
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Programmable Gain
A / D Converters - SMT
0
0 - 23
Name
Description
Default
cgain_cfg
Configures the coarse gain setting
x-gain
enabled
fine_gain_en
Enable use of fine gain.
Disabled
cgain4_ch1
Programmable coarse gain channel 1
in a Quad Channel setup.
1x gain
cgain4_ch2
Programmable coarse gain channel 2
in a Quad Channel setup.
1x gain
cgain4_ch3
Programmable coarse gain channel 3
in a Quad Channel setup.
1x gain
cgain4_ch4
Programmable coarse gain channel 4
in a Quad Channel setup.
1x gain
cgain2_ch1
Programmable coarse gain channel 1
in a Dual Channel setup.
1x gain
cgain2_ch2
Programmable coarse gain channel 2
in a Dual Channel setup.
1x gain
cgain1_ch1
Programmable coarse gain channel 1
in a 1 channel setup.
1x gain
fgain_branch1
Programmable fine gain for branch1.
0dB gain
fgain_branch2
Programmable fine gain for branch 2.
0dB gain
fgain_branch3
Programmable fine gain for branch 3.
0dB gain
fgain_branch4
Programmable fine gain for branch 4.
0dB gain
D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0
X
Hex
Address
0x33
X
X
X
X
X
X
X
X
X
0x2A
fgain_branch5
Programmable fine gain for branch 5.
0dB gain
fgain_branch6
Programmable fine gain for branch 6.
0dB gain
fgain_branch7
Programmable fine gain for branch 7.
0dB gain
fgain_branch8
Programmable fine gain for branch 8.
0dB gain
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
0x2B
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
0x34
0x35
0x36
0x37
The device includes a digital programmable gain in addition to the Full-scale control. The programmable gain of each
channel can be individually set using a four bit code, indicated as cgain*. The gain is configured by the register
cgain_cfg, when cgain_cfg equals ‘0’ a gain in dB steps is enabled as defined in table 20 otherwise if cgain_cfg equals
‘1’ the gain is defined by table 21. There will be no missing codes for gain settings lower than 32x (30dB), due to higher
than 8 bit resolution internally.
Table 20: Gain setting – dB Step
cgain_cfg
cgain*
Implemented Gain (dB)
0
0000
0
0
0001
1
0
0010
2
0
0011
3
0
0100
4
0
0101
5
0
0110
6
0
0111
7
0
1000
8
0
1001
9
0
1010
10
0
1011
11
0
1100
12
0
1101
Not used
0
1110
Not used
0
1111
Not used
InformationFor
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For price,
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and toP.O.
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responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
781-329-4700
• Order onlineApplication
at www.analog.com
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
of their respective
owners.
Application Support: Phone: 1-800-ANALOG-D
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Table 21: Gain Setting – x Step
Implemented Gain Factor
(x)
cgain*
1
0000
1
1
0001
1.25
1
0010
2
1
0011
2.5
1
0100
4
1
0101
5
1
0110
8
1
0111
10
1
1000
12.5
1
1001
16
1
1010
20
0
1
1011
25
1
1100
32
1
1101
50
1
1110
Not used
1
1111
Not used
There is a digital fine gain implemented for each ADC to adjust the fine gain errors between the ADCs. The gain is
controlled by fgain_branch* as defined in table 22. There will be no missing codes when using digital fine gain, due
to higher resolution internally.
To enable the fine gain function the register bit fine_gain_en has to be activated, set to ‘1’.
Table 22: Fine Gain Setting
Arithmetic Function
Implemented Gain (x)
Gain (dB)
0
1
fgain_branchx
1
1
1
1
1
OUT = (1 + 2-8 + 2-9 + 2-10 + 2-11 + 2-12 + 2-13) * IN
1.0077
0.0665
0
1
1
1
1
1
0
OUT = (1 + 2-8 + 2-9 + 2-10 + 2-11 + 2-12) * IN
1.0076
0.0655
0
1
1
1
1
0
1
OUT = (1 + 2-8 + 2-9 + 2-10 + 2-11 + 2-13) * IN
1.0074
0.0644
0
1
1
1
1
0
0
OUT = (1 + 2-8 + 2-9 + 2-10 + 2-11) * IN
1.0073
0.0634
0
0
0
0
0
1
1
OUT = (1 + 2-12 + 2-13) * IN
1.0004
0.0031
0
0
0
0
0
1
0
OUT = (1 + 2-12) * IN
1.0002
0.0021
0
0
0
0
0
0
1
OUT = (1 + 2-13) * IN
1.0001
0.001
0
0
0
0
0
0
0
OUT = IN
1.0000
0.0000
1
1
1
1
1
1
1
OUT = IN
1.0000
0.0000
1
1
1
1
1
1
0
OUT = (1 - 2-13) * IN
0.9999
-0.0011
1
1
1
1
1
0
1
OUT = (1 - 2-12) * IN
0.9998
-0.0021
1
1
1
1
1
0
0
OUT = (1 - 2-12 - 2-13) * IN
0.9996
-0.0032
1
0
0
0
0
1
1
OUT = (1 - 2-8 - 2-9 - 2-10 - 2-11) * IN
0.9927
-0.0639
1
0
0
0
0
1
0
OUT = (1 - 2 - 2 - 2
- 2 ) * IN
0.9926
-0.0649
1
0
0
0
0
0
1
OUT = (1 - 2-8 - 2-9 - 2-10 - 2-11 - 2-12) * IN
0.9924
-0.0660
1
0
0
0
0
0
0
OUT = (1 - 2-8 - 2-9 - 2-10 - 2-11 - 2-12 - 2-13) * IN
0.9923
-0.0670
-8
-9
-10
-2
-11
-13
InformationFor
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Norwood,
For price,
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orders:
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responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
781-329-4700
• Order onlineApplication
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Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
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owners.
Application Support: Phone: 1-800-ANALOG-D
A / D Converters - SMT
cgain_cfg
0 - 24
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Analog Input Invert
Name
Description
Default
invert4_ch
Channel specific swapping of the analog
input signal for a Quad Channel setup.
IPx is positive
input
invert2_ch
Channel specific swapping of the analog
input signal for a Dual Channel setup.
IPx is positive
input
invert1_ch1
Channel specific swapping of the analog
input signal for a 1 channel setup.
IPx is positive
input
D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0
X
X
X
X
Hex
Address
X
0x24
X
X
The IPx pin represents the positive analog input pin, and INx represents the negative (complementary) input. Setting
the bits marked invertx_ch (individual control for each channel) causes the inputs to be swapped. INx would then
represent the positive input, and IPx the negative input.
A / D Converters - SMT
0
LVDS Test Patterns
D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0
Hex
Address
Name
Description
Default
en_ramp
Enables a repeating full-scale ramp
pattern on the outputs.
Inactive
X
0
0
dual_custom_pat
Enable the mode wherein the output
toggles between two defined codes.
Inactive
0
X
0
single_custom_
pat
Enables the mode wherein the output is
a constant specified code.
Inactive
0
0
X
bits_custom1
Bits for the single custom pattern and
for the first code of the dual custom
pattern. is the LSB.
0x00
X
X
X
X
X
X
X
X
0x26
bits_custom2
Bits for the second code of the dual
custom pattern.
0x00
X
X
X
X
X
X
X
X
0x27
pat_deskew
Enable deskew pattern mode.
Inactive
0
X
pat_sync
Enable sync pattern mode.
Inactive
X
0
0x25
0x45
To ease the LVDS synchronization setup of HMCAD1511, several test patterns can be set up on the outputs. Normal
ADC data are replaced by the test pattern in these modes. Setting en_ramp to ‘1’ sets up a repeating full-scale ramp
pattern on all data outputs. The ramp starts at code zero and is increased 1LSB every clock cycle. It returns to zero
code and starts the ramp again after reaching the full-scale code.
A constant value can be set up on the outputs by setting single_custom_pat to ‘1’, and programming the desired value
in bits_custom1. In this mode, bits_custom1 replaces the ADC data at the output, and is controlled by LSBfirst and MSB-first modes in the same way as normal ADC data are.
The device may also be made to alternate between two codes by programming dual_custom_pat to ‘1’. The two codes
are the contents of bits_custom1 and bits_custom2.
Two preset patterns can also be selected:
1. Deskew pattern: Set using pat_deskew, this mode replaces the ADC output with ‘01010101’
2. Sync pattern: Set using pat_sync, the normal ADC word is replaced by a fixed ‘11110000’ word
Note: Only one of the above patterns should be selected at the same time.
0 - 25
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responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
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Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
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• Order onlineApplication
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Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
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owners.
Application Support: Phone: 1-800-ANALOG-D
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Theory of Operation
Table 23: Quad Channel Mode
Channel #
HMCAD1511 utilizes a LVDS output, described in
‘Register Description, LVDS Output Configuration and
Control’. The clocks needed (FCLK, LCLK) for the
LVDS interface are generated by an internal PLL.
3
The HMCAD1511 operate from one clock input, which
can be differential or single ended. The sampling
clocks for each of the four channels are generated
from the clock input using a carefully matched clock
buffer tree. Internal clock dividers are utilized to control the clock for each ADC during interleaving. The
clock tree is controlled by the Mode of operations.
HMCAD1511 uses internally generated references.
The differential reference value is 1V. This results in
a differential input of −1V to correspond to the zero
code of the ADC, and a differential input of +1V to correspond to the full-scale code (code 255).
Sampling
Order
1
2
4
LVDS Output
Fine Gain
Branch
1
D1A
1
2
D1B
2
1
D2A
3
2
D2B
4
1
D3A
5
2
D3B
6
1
D4A
7
2
D4B
8
Table 24: Dual Channel Mode
Channel #
Sampling
Order
1
2
LVDS Output
Fine Gain
Branch
1
D1A
1
2
D1B
3
3
D2A
2
4
D2B
4
1
D3A
5
2
D3B
7
3
D4A
6
4
D4B
8
The ADC employs a Pipeline converter architecture.
Each Pipeline Stage feeds its output data into the digital error correction logic, ensuring excellent differential
linearity and no missing codes.
Table 25: Single Channel Mode
HMCAD1511 operates from two sets of supplies and
grounds. The analog supply and ground set is identified as AVDD and AVSS, while the digital set is identified by DVDD and DVSS.
Channel #
Sampling
Order
1
Interleaving Effects and Sampling Order
Interleaving ADCs will generate interleaving artifacts
caused by gain, offset and timing mismatch between
the ADC branches. The design of HMCAD1511 has
been optimized to minimize these effects. It is not
possible, though, to eliminate mismatch completely,
such that additional compensation may be needed,
especially when using high digital gain settings. The
internal digital fine gain control may be used to compensate for gain errors between the ADC branches.
Due to the optimization of HMCAD1511 there is not
a one-to-one correspondence between the sampling
order, LVDS output order and the branch number.
Tables 23, 24 and 25 give an overview of the corresponding branches, LVDS outputs and sampling order
for the different high speed modes.
LVDS Output
Fine Gain
Branch
1
D1A
1
2
D1B
6
3
D2A
2
4
D2B
5
5
D3A
8
6
D3B
3
7
D4A
7
8
D4B
4
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responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
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• Order onlineApplication
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Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
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Application Support: Phone: 1-800-ANALOG-D
0
A / D Converters - SMT
HMCAD1511 is a multi Mode high-speed, CMOS ADC,
consisting of 8 ADC branches, configured in different
channel modes, using interleaving to achieve high
speed sampling. For all practical purposes, the device
can be considered to contain 4 ADCs. Fine gain is
adjusted for each of the eight branches separately.
0 - 26
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Recommended Usage
Analog Input
The analog input to HMCAD1511 ADC is a switched
capacitor track-and-hold amplifier optimized for differential operation.
Operation at common mode voltages at mid supply
is recommended even if performance will be good for
the ranges specified. The VCM pin provides a voltage suitable as common mode voltage reference. The
internal buffer for the VCM voltage can be switched
off, and driving capabilities can be changed programming the ext_vcm_bc register.
A / D Converters - SMT
0
The input amplifier could be inside a companion chip
or it could be a dedicated amplifier. Several suitable
single ended to differential driver amplifiers exist in the
market. The system designer should make sure the
specifications of the selected amplifier is adequate for
the total system, and that driving capabilities comply
with HMCAD1511 input specifications.
Detailed configuration and usage instructions must be
found in the documentation of the selected driver, and
the values given in figure 13 must be adjusted according to the recommendations for the driver.
AC-Coupling
Figure 11: Input configuration
Figure 12 shows a simplified drawing of the input network. The signal source must have sufficiently low
output impedance to charge the sampling capacitors
within one clock cycle. A small external resistor (e.g.
22 ohm) in series with each input is recommended
as it helps reducing transient currents and dampens
ringing behavior. A small differential shunt capacitor at
the chip side of the resistors may be used to provide
dynamic charging currents and may improve performance. The resistors form a low pass filter with the
capacitor, and values must therefore be determined by
requirements for the application.
DC-Coupling
Figure 13 shows a recommended configuration for
DC-coupling. Note that the common mode input voltage must be controlled according to specified values.
Preferably, the CM_EXT output should be used as reference to set the common mode voltage.
0 - 27
Figure 12: DC coupled input
Figure 13: Transformer coupled input
A signal transformer or series capacitors can be used
to make an AC-coupled input network. Figure 14
shows a recommended configuration using a transformer. Make sure that a transformer with sufficient
linearity is selected, and that the bandwidth of the
transformer is appropriate. The bandwidth should
preferably exceed the sampling rate of the ADC several times. It is also important to minimize phase mismatch between the differential ADC inputs for good
HD2 performance. This type of transformer coupled
input is the preferred configuration for high frequency
signals as most differential amplifiers do not have adequate performance at high frequencies. Magnetic coupling between the transformers and PCB traces may
impact channel crosstalk, and must hence be taken
into account during PCB layout.
price,
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Analog
Devices,
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Norwood,
InformationFor
furnished
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orders:
Analog
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responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone: 781-329-4700 • Order onlineApplication
at www.analog.com
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property of their respective owners.
Application Support: Phone: 1-800-ANALOG-D
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Figure 14: AC coupled input
Figure 15 shows AC-coupling using capacitors. Resistors from the CM_EXT output, RCM, should be used
to bias the differential input signals to the correct voltage. The series capacitor, CI, form the high-pass pole
with these resistors, and the values must therefore be
determined based on the requirement to the high-pass
cut-off frequency.
Note that Start Up Time from Sleep Mode and Power
Down Mode will be affected by this filter as the time
required to charge the series capacitors is dependent
on the filter cut-off frequency.
Clock Input and Jitter Considerations
Typically high-speed ADCs use both clock edges to
generate internal timing signals. In HMCAD1511 only
the rising edge of the clock is used.
The input clock can be supplied in a variety of formats. The clock pins are AC-coupled internally, hence
a wide common mode voltage range is accepted.
Differential clock sources such as LVDS, LVPECL or
differential sine wave can be utilized. LVDS/LVPECL
clock signals must be appropriately terminated as
close to the ADC clock pins as possible. For CMOS
inputs, the CLKN pin should be connected to ground,
and the CMOS clock signal should be connected to
CLKP. CMOS input clock is not recommended above
200 MHz clock frequency. For differential sine wave
clock input the amplitude must be at least ± 0.8 Vpp.
No additional configuration is needed to set up the
clock source format.
The quality of the input clock is extremely important
for high-speed, high-resolution ADCs. The contribution to SNR from clock jitter with a full scale signal at a
given frequency is shown in equation 1.
SNRjitter = 20 · log (2 · π · ƒIN · єt)
(1)
where fIN is the signal frequency, and εt is the total
rms jitter measured in seconds. The rms jitter is the
total of all jitter sources including the clock generation
circuitry, clock distribution and internal ADC circuitry.
For applications where jitter may limit the obtainable
performance, it is of utmost importance to limit the
clock jitter. This can be obtained by using precise and
stable clock references (e.g. crystal oscillators with
good jitter specifications) and make sure the clock distribution is well controlled. It might be advantageous
to use analog power and ground planes to ensure
low noise on the supplies to all circuitry in the clock
distribution. It is of utmost importance to avoid crosstalk between the ADC output bits and the clock and
between the analog input signal and the clock since
such crosstalk often results in harmonic distortion.
The jitter performance is improved with reduced rise
and fall times of the input clock. Hence, optimum jitter
performance is obtained with LVDS or LVPECL clock
with fast edges. CMOS and sine wave clock inputs will
result in slightly degraded jitter performance.
If the clock is generated by other circuitry, it should
be re-timed with a low jitter master clock as the last
operation before it is applied to the ADC clock input.
Application Usage Example
This section gives an overview on how HMCAD1511
can be used in an application utilizing all active modes
with a single clock source. The example assumes that
a 1 GHz clock source is applied. A differential clock
should be used, and can be generated from a single
ended crystal oscillator, using a transformer or balun
in conjunction with ac-coupling to convert from single
ended to differential signal.
0
A / D Converters - SMT
If the input signal is traveling a long physical distance
from the signal source to the transformer (for example
a long cable), kick-backs from the ADC will also travel
along this distance. If these kick-backs are not terminated properly at the source side, they are reflected
and will add to the input signal at the ADC input. This
could reduce the ADC performance. To avoid this
effect, the source must effectively terminate the ADC
kick-backs, or the traveling distance should be very
short.
Start-up Initialization
The start-up sequence will be as follows:
• Apply power
• Apply reset (RESETN low, then high, or SPI command 0x00 0x0001)
• Set power down (PD pin high or SPI command
0x0F 0x0200)
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For price,
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and toP.O.
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orders:
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responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
781-329-4700
• Order onlineApplication
at www.analog.com
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
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owners.
Application Support: Phone: 1-800-ANALOG-D
0 - 28
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
• Set LVDS bit clock phase (phase_ddr, register 0x42)) if other than default must be used
(depends on the receiver).
• Select operating mode, for instance dual channel
mode, and clock divider factor (SPI command
0x31 0x0102).
• Set active mode (PD pin low or SPI command
0x0F 0x0000)
• Select analog inputs, for instance input 1 on
channel 1 and input 3 on channel 2 (SPI commands 0x3A 0202 and 0x3B 0808)
A / D Converters - SMT
0
0 - 29
Change Mode
When changing operational mode, power down must
be activated due to internal synchronization routines.
A typical mode change will then be like this:
• Set power down (PD pin high or SPI command
0x0F 0x0200)
• Change mode to for example Single channel
mode (SPI command 0x31 0x0001)
• Set active mode (PD pin low or SPI command
0x0F 0x0000)
• Select analog inputs, for instance Input 1 (SPI
commands 0x3A 0202 and 0x3B 0202)
Table 26 gives an overview of the operational modes
in this example and the SPI commands to apply for
each mode.
Table 26: Overview of
Operating Modes and Setup Conditions
Operating
Mode
Sampling
Speed
(MSPS)
Clock
Divider
Factor
SPI command for
Mode Selection and
Clock Divider
Single
channel
1000
1
0x31 0x0001
Dual channel
500
2
0x31 0x0102
Quad
channel
250
4
0x31 0x0204
Select Analog Input
When an operational mode is selected, the analog
inputs can be changed ‘on-the-fly’. To change analog
input one merely have to apply the dedicated SPI
commands. The change will occur instantaneously at
the end of each SPI command.
Table 27: Example of
Some Analog Input Selections
Operating Mode
Signal Input
Selection
SPI Commands
Single channel
IP4/IN4
0x3A 1010, 0x3B 1010
Dual channel
Ch1: IP2/IN2
Ch2: IP3/IN3
0x3A 0404, 0x3B 0808
Ch1: IP4/IN4
Quad channel
Ch2: IP3/IN3
Ch3: IP2/IN2
0x3A 1008, 0x3B 0402
Ch4: IP1/IN1
InformationFor
furnished
by delivery,
Analog Devices
believed
be accurate
and reliable.
However,Inc.,
no One
price,
andis to
placeto orders:
Analog
Devices,
Technology
9106,
Norwood,
For price,
delivery, Way,
and toP.O.
placeBox
orders:
Analog
Devices, Inc.,
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone:
781-329-4700
• Order onlineApplication
at www.analog.com
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property
of their respective
owners.
Application Support: Phone: 1-800-ANALOG-D
�HMCAD1511
v04.1015
High Speed Multi-Mode 8-Bit
30 MSPS to 1 GSPS A/D Converter
Outline Drawing
Table 28: 7x7 mm QFN 48 Pin (LP7) Dimensions
Symbol
Millimeter
Inch
Min
Typ
Max
Min
Typ
Max
A
0.8
0.9
1
0.031
0.035
0.039
A1
0
0.02
0.05
0
0.0008
0.002
A2
b
0.2
0.18
D
0.3
0.007
7.00 bsc
D2
5.15
L
0.3
e
F
0.25
0.008
0.01
0.012
A / D Converters - SMT
0
0.276 bsc
5.3
5.4
0.203
0.4
0.5
0.012
0.50 bsc
0.2
0.209
0.213
0.016
0.02
0.020 bsc
0.008
Package Information
Part Number
Package Body Material
Lead Finish
MSL [1]
Package Marking [2]
HMCAD1511
RoHS-compliant Low Stress Injection Molded Plastic
100% matte Sn
Level 2A
HAD1511
XXXX
[1] MSL, Peak Temp: The moisture sensitivity level rating classified according to the JEDEC industry standard and to peak solder temperature.
[2] Proprietary marking XXXX, 4-Digit lot number XXXX
price,
andis to
placeto orders:
Analog
Devices,
Technology
9106,
Norwood,
InformationFor
furnished
by delivery,
Analog Devices
believed
be accurate
and reliable.
However,Inc.,
no One
For price,
delivery, Way,
and toP.O.
placeBox
orders:
Analog
Devices, Inc.,
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
02062-9106
rights of third parties that may result from its use. Specifications subject to changeMA
without
notice. No
Phone: 781-329-4700 • Order online at www.analog.com
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Phone: 781-329-4700 • Order onlineApplication
at www.analog.com
Support: Phone: 1-800-ANALOG-D
Trademarks and registered trademarks are the property of their respective owners.
Application Support: Phone: 1-800-ANALOG-D
0 - 30
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