ETC RDA012M4MS-DI

RDA012M4MS DATASHEET
DS_0017PB0-2805
RDA012M4MS
12 Bit 1.3 GS/s Master-Slave 4:1 MUXDAC
Features
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12 Bit Resolution
1.3 GS/s Sampling Rate
4:1 Input Multiplexer
Master-Slave Operation for Synchronous
Operation of Multiple Devices
Differential Analog Output
Input Code Format: Offset Binary
Output Swing: 600 mV with 50 Ω
Termination
3.3V NMOS-Compatible Data Inputs
Differential ECL or Sinusoidal Clock Input
LVDS Compatible Clock Output
10 Bit Static Linearity
Reference Output/Input Pin for Accurate
Full-Scale Adjustment.
3.3V and -5.2V Power Supply
77 Lead HSD Package
Figure 1 - Functional Block Diagram
Product Description
The RDA012M4MS is a digital-to-analog
converter (DAC) with a 4:1 input multiplexer and
a maximum update rate of 1.3GS/s. The
RDA012M4MS features master-slave operation
that simplifies synchronization when multiple
devices are required, such as in an I-Q
modulation scheme. The integrated DAC utilizes
a segmented current source to reduce the glitch
energy and achieve high linearity performance.
For best dynamic performance, the DAC outputs
are internally terminated with 50Ω resistance,
and outputs a nominal full-scale current of 12mA
when terminated with external 50Ω resistors. For
a convenient interface with most CMOS ICs, the
digital data inputs are low voltage NMOS
compatible.
Ordering information
PART NUMBER
RDA012M4MS-DI
RDA012M4MS-HD
EVRDA012M4MS-HD
DESCRIPTION
12 BIT 4:1 MUX 1.3GS/s DAC, DIE
12 BIT 4:1 MUX 1.3GS/s DAC, HSD Package
RDA012M4MS-HD Evaluation Board
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 1 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Absolute Maximum Ratings
Supply Voltages
Between GNDs ……………………….……. -0.3V to +0.3V
Between VCCs …………………..………….. -0.3V to +0.3V
VCCs to GND …………………………..…….… 0V to +3.8V
RF Input Voltages
CLKIP, CLKIN to GND
........................……… 0V to VCC
HS Digital Input Voltages
DI<0:11> …...................................................... 0V to VCC
Output Termination Voltages
DOUTP, DOUTN to GND
……........................0V to VCC
Temperature
Operating Temperature………………..……. -30 to +100 °C
Case Temperature…………………………… -15 to +85 °C
Junction Temperature….……………………….….. +120 °C
Lead, Soldering (10 Seconds) ……………...…….. +220 °C
Storage………………………………………... -40 to 125 °C
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 2 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Electrical Specification
PARAMETER
ACCURACY
Differential Nonlinearity
Integral Nonlinearity
DYNAMIC PERFORMANCE
SYMBOL
CONDITIONS, NOTE
TEST LEVEL
DNL
INL
SFDR1
Fclk = 800MHz , Fout = 267MHz
SFDR2
Fclk = 1000MHz , Fout = 333MHz
SFDR3
Fclk = 1300MHz , Fout = 400MHz
Signal Noise Ratio
SNDR
Clock Feedthrough
FD
ANALOG SIGNAL OUTPUT (OUTP, OUTN)
Single Ended, 50Ω Termination to
Full-scale Output Range
VFSS
Ground
Single Ended, 50Ω Termination to
Full-scale Output Range
VFSRS
Ground (MIN=000h, MAX=FFFh)
Differential with 50Ω Termination to
Full-scale output swing
VFSD
Ground on each output
Output current
IOUT
Rise Time
TR,OUT
20%-80% with FSR output
Fall Time
TF,OUT
20%-80% with FSR output
Settling Time
TSETTL
CORE CLOCK INPUT (HCLKIP, HCLKIN)
Amplitude
VCPP,HCLKI
Differential ECL
Common Mode Voltage
VCM,HCLKI
Input Resistance
RHCLKI
Input Capacitance
CHCLKI
Maximum Frequency
FMAX,HCLKI
Minimum Frequency
FMIN,HCLKI
CLOCK INPUT (LCLKIP, LCLKIN)
Amplitude
VCPP,LCLKI
Differential LVDS
Common Mode Voltage
VCM,LCLKI
Input Resistance
RLCLKI
Maximum Frequency
FMAX,LCLKI
Minimum Frequency
FMIN,LCLKI
CLOCK OUPUT (LCLKOP, LCLKON)
Amplitude
VCPP,LCLKO
Common Mode Voltage
VCM,LCLKO
Maximum Frequency
FMAX,LCLKO
Minimum Frequency
FMIN,LCLKO
DIGITAL INPUTS (A<0:11>, B<0:11>, C<0:11>, D<0:11>)
Input High Voltage
VIH
Input Low Voltage
VIL
Input Resistance
RDIN
Setup Time
tST,DTHCK
From data input to LCLKO
Hold Time
tHL,DTHCK
From LCLKO to data input
Spurious Free Dynamic
Range
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
MIN
TYP
MAX
UNITS
2
2
±2
±2.5
LSB
LSB
1
1
1
56
53
50
dBc
dBc
dBc
dB
dB
2
570
600
-650
2
1140
3
1200
630
mVp-p
0
mV
1260
mVp-p
12
1
1
3
400
-0.8
45
3
3
1300
2
2
3
3
3
250
0.9
2
2
3
3
250
0.9
325
2
2
0.9
-0.4
3
3
300
-50
600
-1.5
50
mA
ps
ps
ps
800
-2.0
55
1
350
1.2
100
450
1.5
325
0.25
350
1.2
450
1.5
0.25
VCC
0.4
mVpp
V
Ω
fF
MHz
MHz
mVpp
mV
Ω
MHz
MHz
mVpp
mV
MHz
MHz
V
V
Ω
ps
ps
Page 3 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Electrical Specification
PARAMETER
SYMBOL
TERMINATION (VTT)
HCLKI Termination
VTT
Voltage
REFERENCE (VREFA, VREFD)
Analog Reference
VREFA
Digital Reference
VREFD
Input Resistance
RVREF
POWER SUPPLY
Positive Supply
VCC
Negative Supply, Analog
VEEA
Negative Supply, Digital
VEED
Power Dissipation
P
Power Dissipation
PVCC
Power Dissipation
PVEEA
Power Dissipation
PVEED
OPERATING RANGE
Ambient Temperature
TA
Junction Temperature
TJ
CONDITIONS, NOTE
TEST LEVEL
MIN
TYP
MAX
-2.0
Internally generated
Internally generated
For externally driven VREFA, VREFD
3
3
3
Total dissipation
Positive supply
Negative supply, analog
Negative supply, digital
UNITS
V
-1.9
-1.9
500
-2.0
-2.0
560
-2.1
-2.1
620
V
V
Ω
3.1
-5.4
-5.4
3.3
-5.2
-5.2
3300
500
500
2300
3.5
-5.0
-5.0
V
V
V
mW
mW
mW
mW
120
°C
°C
Test Levels
TEST LEVEL
1
2
3
TEST PROCEDURE
1,2
100% production tested at TA = 25C
1
Sample tested at TA = 25C unless other temperature is specified
Guaranteed by design and/or characterization testing
1
All tests are continuous, not pulsed. Therefore, Tj (junction temperature) > Tc (case temperature) > Ta (ambient temperature).
This is the normal operating condition and is more stressful than a pulsed test condition.
2
The tests are conducted with the power set to VCCMIN and to VCCMAX.
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 4 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Pin Description
P/I/O
P
P
P
P
I
I
I
PIN
7, 14, 39, 62
68, 71, 72, 73, 74, 75, 76
8, 12, 26, 52, 64, 67
Bottom Plate
77
10
4
NUM.
4
7
6
1
1
1
NAME
VCC
VEEA
VEED
GND
VREFA
VREFD
VTT
I
6
1
MSM
I
I
I
I
I
I
I
I
I
I
O
O
5
3
24
25
2
1
9, 16, 20, 27, 31, 35, 40, 44, 48, 53, 57, 61
11, 17, 21, 28, 32, 36, 41, 45, 49, 54, 58, 63
13, 18, 22, 29, 33, 37, 42, 46, 50, 55, 59, 65
15, 19, 23, 30, 34, 38, 43, 47, 51, 56, 60, 66
70
69
1
1
1
1
1
1
12
12
12
12
1
1
HCLKIP
HCLKIN
LCLKIP
LCLKIN
LCLKOP
LCLKON
DIA<0:11>
DIB<0:11>
DIC<0:11>
DID<0:11>
OUTP
OUTN
FUNCTION
+3.3V Digital Power Supply
-5.2V Analog Power Supply
-5.2V Digital Power Supply
Ground
-2V Reference Voltage
Digital Circuitry Bias Reference. Bypass to Ground
HCLKI Clock Termination Voltage
Master-Slave Mode Selection:
Float - Master
GND - Slave
Clock Input
Low Clock Input
Low Clock Output
DIA<i> Is Channel A Digital Bit i Input. MSB is bit 11
DIB<i> Is Channel B Digital Bit i Input. MSB is bit 11
DIC<i> Is Channel C Digital Bit i Input. MSB is bit 11
DID<i> Is Channel D Digital Bit i Input. MSB is bit 11
Differential Output
Pin Layout (TOP view)
Figure 2 - RDA012M4MS-HD pinout (top view).
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 5 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Pad Layout
Figure 3 - RDA012M4MS pad layout.
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 6 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Theory of Operation
For best dynamic and static performance, the
DAC employs 6-bit segmentation. The 3.3V
NMOS compatible 12-bit digital data inputs are
latched by a master-slave flip-flop immediately
after the input buffer to reduce the data skew.
The four-channel data are combined together by
the 48:12 MUX and latched again. The 6 MSB
data bits are decoded into thermometer code by
a two-stage decoding block, and the 6 LSB data
bits are transported through the delay equalizer
block. The digital data are synchronized again
by a second master slave flip-flop to reduce the
switching glitch. The decoded 6 MSB data drive
63 identical current switches, and the 6 LSB
data drive 6 current switches. The output nodes
from the LSB current switches are connected to
the analog output through an R-2R ladder to
generate the binary output.
The DAC output full-scale voltage follows the
relationship VFS = 0.3xVREF.
An internal
reference circuit with approximately -10dB
supply rejection is integrated on chip for
application convenience. The reference pin is
provided for monitoring and for bypass
purposes. To band-limit the noise on the
reference voltage, the reference pin should be
bypassed to the GNDA node with capacitance >
100pF. The VREF pin can also be used to
override the internal reference with an accurate,
temperature-compensated
reference.
external
voltage
The timing diagram is shown in figure 3. The
1.3GHz external clock (HCLK) is divided by 2
and 4 resulting in the MUX internal selection
signals S0 and S1. A low-speed clock (LCLK) is
provided to drive the external digital. The fourchannel data input are latched with an internal
clock that is synchronized with the LCLK.
Controlled by S0 and S1, input data are fed to
the 1.3GS/s DAC in the order shown.
For applications requiring two MUXDACs, such
as quadrature modulation, the RDA012M4MS
offers master and slave mode operation. This
provides synchronization between the two
MUXDACs in a straightforward manner. Figure 4
illustrates two MUXDACs in an I-Q configuration
and 1 GS/s conversion rate. The I-MUXDAC is
in master mode and the Q-MUXDAC is in slave
mode. The master MUXDAC generates an
LVDS compatible 250MHz clock signal that is
input to the slave MUXDAC were it is used to
synchronize the generation of the select signal
for the input muxes. The slave device then feeds
this clock to the FPGA clock driver. For proper
synchronization, the delay associated with the
LVDS clock signal from master to slave
MUXDAC must not exceed one clock period of
the high-speed clock.
Figure 4 - Input Timing Diagram.
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 7 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Signal Description
HIGH SPEED INPUT CLOCK.
The RDA012M4MS high-speed clock input is
differential and can be driven from typical ECL
circuits. Also a differential sinusoidal clock can
be used. The HCLKIP and HCLKIN inputs, are
internally terminated with 50 Ω to VTT which
should be connected to a well decoupled –2.0
volt supply. Since the MUXDAC's output phase
noise is directly related to the input clock noise
and jitter, a low-jitter clock source is ideal. The
internal clock driver generates very little added
jitter (~100fs). A 500MHz MUXDAC output
demands a white noise induced clock jitter of
less than 250fs for a 10-bit equivalent, 62dB
SNDR.
DATA INPUT.
The data inputs are 3.3V NMOS-compatible.
The data is interleaved according to significant
bit. For example, consecutive data pins will
occur as A0, B0, C0, D0, A1, B1, etc.
OUTPUT CLOCK.
Output clock LCLKOP and LCLKON are
supplied for the DSP/FPGA/ASIC in slave mode,
or connected to another MUXDAC if in master
mode. They are LVDS compliant and needs to
be terminated with a100Ω resistor in front of the
clock driver for the ASIC/DSP.
For application convenience, the data input's
setup and hold time is specified with respect to
the LCLKO. It should be noted that LCLKOP and
LCLKON are driven by the MUXDAC and the
waveforms of these signals are better defined at
the receiver end; that is, near the ASIC/DSP
chip that provides the input data for the
MUXDAC.
The system designer should
consider the delay associated with the signal
routing in the system's timing budget.
From the ASIC/DSP end, however, the timing
margin is decreased by the amount equal to the
sum of the data delay and clock delay between
the two chips, as noted in the lower part of the
diagram.
ANALOG OUTPUT.
The outputs DACOUTP and DACOUTN should
both be connected though a 50 Ω resistor to
ground. This will give a full-scale amplitude of
0.6 volt (both outputs must be terminated), 1.2
volt differentially. The output common mode can
be changed by terminating the load resistors to
a different voltage. The device is optimized to
perform best when connected to a voltage
between 0 and 1 volt, however. For reliable
operation, the output termination voltage should
not exceed 3 volts.
REFERENCE.
VREFA is provided for added control of the fullscale amplitude output. The internal reference
circuit is designed to provide -2.0 volts, which
can change up to ±5% as the supply voltage
and/or operating temperature changes. If the
user prefers accurate absolute full-scale, use an
external voltage reference with low output
impedance to override the internal reference.
The output full-scale voltage follows the
relationship VFS = 0.3xVREF. Note that the
MUXDAC is optimized to have the best
performance with a reference voltage of -2.0
volts. The output resistance of the reference
node is 560 Ω ±10%. VREFD allows adjusting of
the digital circuitry bias point for varying input
voltage swings. In most cases, VREFD should
be bypassed to GND.
In figure 6, the setup and hold time of the LCLK
to data transition are defined at the MUXDAC
side. Data transitions of the data input have to
occur during the "Valid Data Transition Window."
The timing margin seen from the MUXDAC is
TP-TS where TP is the LCLKO period and TS is
the setup time, assuming that the ASIC chip
takes LCLKO as the clock input and its outputs
are latched at the falling edge of the clock.
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 8 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Typical Operating Circuit
Figure 5 - RDA012M4MS typical operating circuit using the internal voltage reference.
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 9 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Figure 6 - RDA012M4MS typical operating circuit in master-slave mode using external voltage reference.
Figure 7 - RDA012M4MS recommended placement in master-slave mode to minimize LCLK routing.
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 10 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Typical Performance
0
-10
-20
Signal (dB)
-30
-40
-50
-60
-70
-80
-90
0
50
100
150
200
250
300
350
400
Fclk (MHz)
Figure 8 - Output spectrum at Fclk=800MHz, Fout=270MHz
0
-10
-20
Signal (dB)
-30
-40
-50
-60
-70
-80
-90
0
100
200
300
400
500
Fclk (MHz)
Figure 9 - Output spectrum at Fclk=1000MHz, Fout=340MHz
0
-10
-20
Signal (dB)
-30
-40
-50
-60
-70
-80
-90
0
100
200
300
400
500
600
Fclk (MHz)
Figure 10 - Output spectrum at Fclk=1300MHz, Fout=340MHz
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 11 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Package Information
The package is a 77 pin HSD with a heat sink slug on
the package’s bottom. The leads are gull-winged
formed and trimmed to 0.053 inch (1.35 mm) in
lenght.
Figure 11 - RDA012M4MS-HD package, dimensions shown in inches (mm).
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 12 of 13
RDA012M4MS DATASHEET
DS_0017PB0-2805
Figure 12 - RDA012M4MS-HD footprint, dimensions shown in inches (mm).
Rockwell Scientific reserves the right to make changes to its product specifications at any time without notice.
The information furnished herein is believed to be accurate; however, no responsibility is assumed for its use.
Page 13 of 13