Advanced Science And Novel Technology Company, Inc.
2790 Skypark Drive Suite 112, Torrance, CA 90505
Offices: 310-530-9400 / Fax: 310-530-9402
www.adsantec.com
ASNT5013-KMC
DC-30Gbps D-Type Flip-Flop
87% clock phase margin for retiming of data input eye
Fully differential CML input interfaces
Fully differential CML output interface with amplitude control
Single +3.3V or -3.3V power supply
Power consumption: 510mW
Fabricated in SiGe for high performance, yield, and reliability
Custom CQFP 24-pin package
vee
6.5ps set-up/hold time capability
vcc
gc
Exhibits low jitter and limited temperature variation over industrial temperature range
vcc
vcc
High speed broadband D-Type Flip-Flip for data retiming with full rate clock and single-ended
output amplitude control
vcc
vee
vcc
vcc
dp
outp
ASNT5013
ASNT5111
vcc
vcc
dn
outn
vcc
vcc
Rev. 3.1.2
1
vcc
cn
vcc
cp
vcc
vee
vee
May 2020
Advanced Science And Novel Technology Company, Inc.
2790 Skypark Drive Suite 112, Torrance, CA 90505
Offices: 310-530-9400 / Fax: 310-530-9402
www.adsantec.com
DESCRIPTION
2K gc
50
50
dp
DFF
core
dn
outp
outn
50
50
50
50
cp cn
Fig. 1. Functional Block Diagram
The temperature stable ASNT5013-KMC SiGe IC provides broadband data retiming functionality and is
intended for use in high-speed measurement / test equipment. The IC shown in Fig. 1 can sample a highspeed data signal dp/dn with a full-rate external clock cp/cn to create a full-rate retimed NRZ data output
outp/outn with its output signal amplitude controlled by gc.
The part’s I/O’s support the CML logic interface with on chip 50Ohm termination to vcc and may be used
differentially, AC/DC coupled, single-ended, or in any combination (see also POWER SUPPLY
CONFIGURATION). In the DC-coupling mode, the input signal’s common mode voltage should comply
with the specifications shown in ELECTRICAL CHARACTERISTICS. In the AC-coupling mode, the
input termination provides the required common mode voltage automatically. The differential DC
signaling mode is recommended for optimal performance.
POWER SUPPLY CONFIGURATION
The part can operate with either negative supply (vcc = 0.0V = ground and vee = −3.3V), or positive
supply (vcc = +3.3V and vee = 0.0V = ground). In case of the positive supply, all I/Os need AC
termination when connected to any devices with 50Ohm termination to ground. Different PCB layouts
will be needed for each different power supply combination.
Rev. 3.1.2
2
May 2020
Advanced Science And Novel Technology Company, Inc.
2790 Skypark Drive Suite 112, Torrance, CA 90505
Offices: 310-530-9400 / Fax: 310-530-9402
www.adsantec.com
All the characteristics detailed below assume vcc = 0.0V and vee = -3.3V.
ABSOLUTE MAXIMUM RATINGS
Caution: Exceeding the absolute maximum rating shown in Table 1 may cause damage to this product
and/or lead to reduced reliability. Functional performance is specified over the recommended operating
conditions for power supply and temperature only. AC and DC device characteristics at or beyond the
absolute maximum ratings are not assumed or implied. All min and max voltage limits are referenced to
ground.
Table 1. Absolute Maximum Ratings
Parameter
Supply Voltage (vee)
Power Consumption
RF Input Voltage Swing (SE)
Case Temperature
Storage Temperature
Operational Humidity
Storage Humidity
Min
-40
10
10
Max
-3.6
0.56
1.0
+90
+100
98
98
Units
V
W
V
ºC
ºC
%
%
TERMINAL FUNCTIONS
TERMINAL
Name
No.
Type
dp
dn
cp
cp
outp
outn
gc
Name
vcc
vee
Rev. 3.1.2
DESCRIPTION
High-Speed I/Os
Differential data inputs with internal SE 50Ohm termination
to vcc.
Differential clock inputs with internal SE 50Ohm termination
to vcc.
Differential data outputs with internal SE 50Ohm termination
to vcc. Require external SE 50Ohm termination to vcc.
Single-ended output amplitude control signal with internal
2KOhm termination to vcc.
Supply and Termination Voltages
Description
Pin Number
Positive power supply.
2, 4, 6, 8, 10, 12, 14, 16, 17, 18, 20, 22, 24
(+3.3V or 0)
Negative power supply.
1, 7, 13, 19
(0V or -3.3V)
21
23
3
5
11
9
15
CML
input
CML
input
CML
output
CML
input
3
May 2020
Advanced Science And Novel Technology Company, Inc.
2790 Skypark Drive Suite 112, Torrance, CA 90505
Offices: 310-530-9400 / Fax: 310-530-9402
www.adsantec.com
ELECTRICAL CHARACTERISTICS
PARAMETER
MIN
TYP MAX UNIT
COMMENTS
General Parameters
-3.1
-3.3
-3.5
V
±6%
vee
0.0
V
External ground
vcc
Ivee
155
mA
Power consumption
510
mW
Junction temperature -40
25
125
°C
HS Input Data (dp/dn)
Data rate
DC
30
Gbps
Swing
0.05
0.8
V
Differential or SE, p-p
CM Voltage Level
vcc-0.8
vcc
V
Must match for both inputs
HS Input Clock (cp/cn)
Frequency
DC
30
GHz
Swing
0.05
0.8
V
Differential or SE, p-p
CM Voltage Level
vcc-0.8
vcc
V
Must match for both inputs
Clock Phase Margin
85
87
89
%
HS Output Data (outp/outn)
Data rate
DC
30
Gbps
Logic “1” level
V
vcc
Logic “0” level
vcc-0.7
vcc
V
With external 50Ohm DC termination.
Controlled by gc signal
Rise/Fall times
15
ps
20%-80%
Output Jitter
5
ps
Peak-to-peak
Gain Control (gc)
Control voltage
vcc-1.0
vcc
V
Single-ended
PACKAGE INFORMATION
The chip die is housed in a custom 24-pin CQFP package shown in Fig. 2. The package provides a center
heat slug located on its back side to be used for heat dissipation. ADSANTEC recommends for this
section to be soldered to the vcc plain, which is ground for a negative supply, or power for a positive
supply.
The part’s identification label is ASNT5013-KMC. The first 8 characters of the name before the dash
identify the bare die including general circuit family, fabrication technology, specific circuit type, and part
version while the 3 characters after the dash represent the package’s manufacturer, type, and pin out
count.
This device complies with the Restriction of Hazardous Substances (RoHS) per 2011/65/EU for all ten
substances.
Rev. 3.1.2
4
May 2020
Advanced Science And Novel Technology Company, Inc.
2790 Skypark Drive Suite 112, Torrance, CA 90505
Offices: 310-530-9400 / Fax: 310-530-9402
www.adsantec.com
Fig. 2. CQFP 24-Pin Package Drawing (All Dimensions in mm)
Rev. 3.1.2
5
May 2020
Advanced Science And Novel Technology Company, Inc.
2790 Skypark Drive Suite 112, Torrance, CA 90505
Offices: 310-530-9400 / Fax: 310-530-9402
www.adsantec.com
REVISION HISTORY
Revision
3.1.2
3.0.2
3.0.1
Date
05-2020
07-2019
02-2013
2.0
1.0
03-2009
02-2008
Rev. 3.1.2
Changes
Updated Package Information
Updated Letterhead
Revised title
Added package pin out drawing
Revised functional block diagram
Revised description
Added power supply configuration
Added absolute maximum ratings
Revised terminal functions
Revised electrical characteristics
Added package information and mechanical drawing
Format correction
Revised electrical characteristics
First release
6
May 2020