Flexible and Secure Low-Power Ethernet Solutions
Industrial IoT
Ethernet Switches and PHYs
Software
Power over Ethernet (PoE)
Miniature Atomic Clocks
Timing ICs
FPGAs
Signal Conditioners and Crosspoint Switches
2
Intelligent Transportation
The Challenge
Machines and various types of equipment are increasingly both
connected and intelligent, imposing vastly increased networking
and bandwidth requirements on network infrastructures in
order to deliver real-time visibility and control. However, today’s
industrial network architectures are largely heterogeneous with
vast installations of legacy equipment and specialized networked
protocols still in use. Modernizing these networks requires a
strategy to address the system reliability, determinism and security
imperatives of industrial settings. With Ethernet increasingly the
common denominator in these environments, Industrial Internet
of Things (IIoT) networking has new requirements for deeply
embedded, secure, and performance-optimized networking
connectivity with accurate timing synchronization, ring protection,
and line rate encryption, while demanding deterministic and reliable
performance at low power.
The Solution
Microsemi’s broad portfolio—including ICs, systems, software, IP
and ecosystem solutions–is inherently optimized for IIoT Ethernet
networking applications and needs.
I
Cs and Systems: Microsemi’s flexible Industrial Ethernet
solutions portfolio includes ICs such as Ethernet switches and
PHYs, PLLs and oscillators, FPGAs/SoCs, Power over Ethernet
(PoE) devices, and rubidium oscillators, complemented by
system solutions such as industrial PoE injectors/midspans
and grandmaster clocks. Unlike traditional Ethernet switch
IC suppliers, Microsemi focuses on low-bandwidth and
high-feature IC architectures that deliver sizeable low-power
advantages and fit IIoT market needs such as port flexibility,
long life cycle, deterministic behavior, and stringent reliability.
Software: To reduce development costs and time to market,
Microsemi also offers comprehensive software choices that
enrich our device portfolio, including IEEE 1588 timing and
optimized managed switch software stacks.
IP: Microsemi SoC IP provides all the necessary building blocks
for Industrial Ethernet communications to simplify communications
from fieldbus interfaces to an Ethernet backbone.
Ecosystem Solutions: Through Microsemi’s ecosystem,
customers may also leverage multi-protocol Industrial Ethernet
solutions as well as security and ODM turnkey solutions
specifically for industrial applications.
The Value of Choosing Microsemi
Selecting a solutions provider that can meet your IIoT networking
requirements is an important choice. Microsemi is a long-term
supplier of Ethernet switching and PHY technology, with over
300 million Gigabit Ethernet ports shipped. Microsemi is also the
only IC, systems, and software provider with a power-optimized,
flexible, and reliable industrial Ethernet networking portfolio that
supports Ethernet interfaces and fieldbus protocols for a broad
range of Industrial Ethernet applications, enabling highly reliable
and secure IIoT networks.
Contact us today to learn how you can get to market
faster with Microsemi IIoT solutions.
Microsemi and Industrial IoT
Smart Energy Physical Security Automotive
Industrial Automation Process Control
3
Ethernet Switches, PHYs, Software, and PoE: Optimized for IIoT Networking
Microsemi has been at the forefront of the worldwide transition of industrial networks and other market segments to Ethernet,
with a growing portfolio of products providing advanced features and efficient architectures that result in scalable, low-power
and high-reliability performance in the transmission of voice, video, and data.
With over 300 million Gigabit Ethernet ports shipped, Microsemi is a global leader in Ethernet switch and physical layer IC
technology and IP. Microsemi is also a leading provider of end-to-end PoE ICs and midspans/injectors since 1999, with
a well-established track record in Enterprise applications.
Key Features
• Faster time-to-production with complete hardware and
software solutions
• Industrial temperature range operation
• Ethernet switch solutions up to 100 Gbps of bandwidth,
with low power and integrated PHYs
• Ethernet PHYs offer simplified designs with flexible clocking
and management features, wide voltage interface ranges,
and adjustable drive strength to reduce EMI
• Complete IEEE 1588-compliant 1 Gbps and 10 Gbps
solutions with nanosecond-level timestamping accuracy and
AES-256 MACsec security features that preserve accuracy
• Line monitoring features that gauge and react to the health
of an active Ethernet link
• Solutions with low-alpha mold compound, improving overall
SEU immunity
• Broadest PoE product portfolio for indoor and outdoor
deployments with PoE ICs delivering power (PSE) and
receiving power (PD), and a wide range of PoE injectors/
midspans injecting up to 95 W over a single Category
5/5E/6/6A/7 cable
Ethernet Switches
Ethernet Solutions
Product Number Ports* Managed Embedded PHYs Interfaces L2/L2+/
L3-Aware 1588 Ring
Protection
Temp.
Min.
°
C
Temp.
Max.
°
C
1G 2.5G 10G 10G 1G SGMII QSGMII XAUI SFI/XFI PCIe
VSC7420 SparX-III-10um™
10 2 8 •
L2
–40 125
VSC7421 SparX-III-17um™
17 212 •
L2
–40 125
VSC7422 SparX-III-25um™
25 112 • •
L2
–40 125
VSC7423 Caracal Lite™
7 2 • 5 •
L2+
• • –40 125
VSC7428 Caracal-1™
11 2 • 8 •
L2+
• • –40 125
VSC7429 Caracal-2™
26 2 • 12 • •
L2+
• • –40 125
VSC7414 SparX-III-11™
11 2 • • •
L2+
•–40 125
VSC7460 Jaguar-1™
31 10 4 • • •
L2+/L3-Aware
• • –40 125
VSC7462 LynX-1™
20 10 4 • • •
L2+/L3-Aware
• • –40 125
VSC7438 Serval-2™
14 12 2 • 2 • • • • •
L2+/L3-Aware
• • –40 125
VSC7464 LynX-2™
26 16 4 • 4 • • • • •
L2+/L3-Aware
• • –40 125
VSC7468 Jaguar-2™
52 24 4 • 4 • • • • •
L2+/L3-Aware
• • –40 125
VSC7440 SparX-IV-34™
4 4 2 • 2 2 • • •
L2+/L3-Aware
• • –40 125
VSC7442 SparX-IV-52™
52 • • • •
L2+/L3-Aware
• • –40 110
VSC7444 SparX-IV-44™
26 16 2 • 2 • • R • •
L2+/L3-Aware
• • –40 110
VSC7448 SparX-IV-80™
52 24 4 • 4 • • R • •
L2+/L3-Aware
• • –40 110
VSC7511 Ocelot-4um™
4 4 • •
L2
•–40 125
VSC7512 Ocelot-10um™
10 2 4 • • •
L2
•–40 125
VSC7513 Ocelot-8™
8 • 4 • • •
L2
• • –40 125
VSC7514 Ocelot-10™
10 2 • 4 • • •
L2
• • –40 125
*Maximum port counts exclude the NPI port. Shall not surpass the device’s max available I/O bandwidth.
“R” denotes both RXAUI and XAUI support
1G integrated ports support dual media Copper or Fibre applications
4
Ethernet PHYs
Ethernet Software
Product
Number
Speed Ports MAC
Interfaces
Cu-Only or
Dual Media
256/128-bit
MACsec SyncE 1588v2
Accuracy
Temp.
Min.°C
Temp.
Max. °C
FE GE
VSC8501-03 • 1 RGMII/GMII/MII
(2.5 V/3.3 V) Cu •–40 125
VSC8502-03 • 2 RGMII/GMII/MII
(2.5 V/3.3 V) Cu •–40 125
VSC8504-04 • 4 QSGMII/SGMII Dual Media •–40 125
VSC8512 •12 Q/SGMII Dual Media •–40 125
VSC8514-03 • 4 QSGMII Cu •–40 125
VSC8514-14 • 4 QSGMII Cu –40 125
VSC8530-03 • 1 RGMII/RMII
(1.5 V/1.8 V/2.5 V/3.3 V) Cu –40 125
VSC8531-03 • 1 RGMII/RMII
(1.5 V/1.8 V/2.5 V/3.3 V) Cu –40 125
VSC8540-03 • 1 RGMII/RMII/MII
(1.5 V/1.8 V/2.5 V/3.3 V) Cu •–40 125
VSC8541-03 • 1 RGMII/RMII/GMII/MII
(1.5 V/1.8 V/2.5 V/3.3 V) Cu •SOF –40 125
VSC8552-04 • 2 QSGMII/SGMII/RGMII
(2.5 V/3.3 V) Dual Media •–40 125
VSC8562-14 • 2 QSGMII/SGMII Dual Media • • –40 125
VSC8564-14 • 4 QSGMII/SGMII Dual Media • • –40 125
VSC8572-04 • 2 QSGMII/SGMII/RGMII
(2.5 V/3.3 V) Dual Media •±10 nS –40 125
VSC8574-04 • 4 QSGMII/SGMII Dual Media •±10 nS –40 125
VSC8575-14 • 4 QSGMII/SGMII Dual Media •±4 nS –40 125
VSC8582-14 • 2 QSGMII/SGMII Dual Media • • ±4 nS –40 125
VSC8584-14 • 4 QSGMII/SGMII Dual Media • • ±4 nS –40 125
All Gigabit Ethernet PHYs are also available with a 0° C to 125° C temperature range.
Product Number Description Market Application Basic
L2
Advanced
L2 Protection IEEE 1588/
SyncE
Carrier
Ethernet
iCLI, JSON/
RPC, SNMP
eCOS LINUX
VSC6810SDK VSC6818SDK CE Services Service Provider Turnkey • • • • • •
VSC6815SDK VSC6817SDK IStaX Industrial IoT Turnkey • • • • •
VSC6813SDK VSC6816SDK SMBStaX Enterprise Turnkey • • •
VSC6812SDK VSC6819SDK WebStaX Enterprise Turnkey •
VSC6802API Unified API Development
VSC6803API Open API Development
VSC6811SDK WebConfig Turnkey •
VSC6825SDK Unmanaged Turnkey •
VSC6830SDK Linux BSP Development
Ethernet Solutions
5
Industrial PoE Solutions
Watts per Port Product Number of Ports Power Input Warranty
30 W PD-9001GI/DC 1DC 1 Year
60 W PD-9501GI/DC 1DC 1 Year
All Microsemi PoE products support Gigabit data rates
Power over Ethernet (PoE)
PoE PD Front End ICs
Product IC Type PoE Type IEEE Compliant Max
Power [W]
Max
Current [A]
Max Channel
Impedance [Ω]
PD70100ILD Front end Type 1 – AF – 15 W IEEE 802.3af 15.4 0.45 0.6
PD70101ILQ Combo: Front + PWM controller Type 1 – AF – 15 W IEEE 802.3af 15.4 0.45 0.6
PD70200ILD Front end Type 2 – AT – 30 W IEEE 802.3at 51 1.2 0.6
PD70201ILQ Combo: Front + PWM controller Type 2 – AT – 30 W IEEE 802.3at 51 1.2 0.6
PD70210ILD/PD70210AILD Front end PoH – 95 W PoH 95 20.3
PD70211ILQ Combo: Front + PWM controller PoH – 95 W PoH 95 20.3
PD70224ILQ-TR Ideal diode bridge PoH – 95 W PoH 95 2NA
PoE PSE Manager
Product Ports FETs Sense
Resistor
MCU
Options
Host I/F
Options
LED Driving
Options
Standards
Supported
Max PM
System
Evaluation
Boards
PD69208ILQ 8Internal
0.2 Ω
Internal
0.1 Ω
PD69200-VVVVSS
Marvell ISSR
I
2
C
UART
SPI
CPLD
Host
IEEE 802.3af 15.4W
IEEE 802.3at 30W
IEEE 802.3at 60W
PoH 95W
96 Ports PD-IM-7648
PD-IM-7648H
PD69204ILQ 4Internal
0.2 Ω
Internal
0.1 Ω
PD69200-VVVVSS
Marvell ISSR
I
2
C
UART
SPI
CPLD
Host
IEEE 802.3af 15.4W
IEEE 802.3at 30W
IEEE 802.3at 60W
PoH 95W
96 Ports PD-IM-7648
PD-IM-7648H
PD69108ILQ/
PD69108FILQ 8Internal
0.3 Ω
External
0.36 Ω
PD39100X-0YYY
PD69100Y-GGGG
Marvell ISSR
I
2
C
UART
SPI
CPLD
Host
IEEE 802.3af 15.4W
IEEE 802.3at 30W
IEEE 802.3at 60W
PoH 95W
96 Ports PD-IM-7548
PD-IM-7548H
PD69104ILQ 4Internal
0.3 Ω
External
0.36 Ω
PD39100X-0YYY
PD69100Y-GGGG
Marvell ISSR
I
2
C
UART
SPI
CPLD
Host
IEEE 802.3af 15.4W
IEEE 802.3at 30W
IEEE 802.3at 60W
PoH 95W
92 Ports Use PD69108
EVB
PD69104B1ILQ/
PD69104B1FILQ 4Internal
0.3 Ω
External
0.36 Ω Auto Mode I
2
C
UART
Direct
Host
IEEE 802.3af 15.4W
IEEE 802.3at 30W
IEEE 802.3at 60W
PoH 95W
4 Ports PD-IM-7504B
PD69101ILQ 1Internal
0.3 Ω
External
0.5 Ω Auto Mode SPI Direct
Host
IEEE 802.3af 15.4W
IEEE 802.3at 30W
IEEE 802.3at 60W
2 Ports PD-IM-7401
PD69012 12 External
0.1 Ω
External
0.5 Ω
PD69000XX-GGGG
Marvell ISSR
Auto Mode
I
2
C
UART
SPI
CPLD
Host
IEEE 802.3af 15.4W
IEEE 802.3at 30W
IEEE 802.3at 60W
96 Ports PD-IM-7448E
PD-IM-7448A
PD69008 8External
0.1 Ω
External
0.5 Ω
PD69000XX-GGGG
Marvell ISSR
Auto Mode
I
2
C
UART
SPI
CPLD
Host
IEEE 802.3af 15.4W
IEEE 802.3at 30W
IEEE 802.3at 60W
88 Ports PD-IM-7416A
PD64001 1External
0.1 Ω
External
2 Ω Auto Mode none Direct
IEEE 802.3af 15.4W
IEEE 802.3at 30W
IEEE 802.3at 60W
1 Port PD-IM-7301
6
SA.35m SA.33m SA.31m
Size (volume) 46 cm
3
/2.8 in
3
Power (W) @ 25 °C 5
Phase Noise (dBc/Hz)
1 Hz
10 Hz
100 Hz
1 KHz
10 KHz
≤ –70
≤ –87
≤ –114
≤ –130
≤ –140
≤ –70
≤ –87
≤ –114
≤ –130
≤ –140
≤ –65
≤ –85
≤ –112
≤ –130
≤ –140
Aging (monthly) <±1E–10 <±1E–10 <±3E–10
TempCo (–10 °C to 75 °C) <1E–10 <1.5E–10 <1E–9
Allan Deviation
1 s
10 s
100 s
≤3E–11
≤1.6E–11
≤8E–12
≤3E–11
≤1.6E–11
≤8E–12
≤5E–11
≤2.5E–11
≤1E–11
Miniature Atomic Clocks
Miniature Atomic Clocks: SWaP Optimized for Robust Industrial Holdover
Highly compact, lightweight, and low power, Microsemi’s
Miniature Atomic Clock (MAC) portfolio delivers significant
advantages over traditional lamp-based rubidium clocks
used in industrial holdover applications. With the industry’s
broadest operating temperature range (–10 °C to 70 °C),
the SA.3Xm devices are the ideal choice for industrial
applications requiring rubidium oscillator precision with
no external physical connection.
7
Timing ICs
Timing ICs: From the Market Leader in SyncE
Microsemi provides both SyncE alone (with an easy migration
path to IEEE 1588) or combined SyncE and IEEE 1588
for frequency and time alignment. The market leader in
Synchronous Ethernet timing devices, Microsemi was the
first to introduce Synchronous Ethernet PLLs in 2006.
Microsemi now offers the industry’s most comprehensive
portfolio of SyncE timing devices, providing G.8262
compliance and ultra-low jitter for PHYs up to 100G.
SyncE for Timing Card
SyncE for Line Card
Product Description DPLLs /
NCOs BW (Hz) Split XO
Feature Inputs Input
Frequency
Embedded
PPS &
EPP2S
Diff.
Outputs
CMOS
Outputs
Output
Frequency
Low-
Jitter
APLLs
GP
Clock
Gen
Jitter
ps
RMS
Pkg
Size
mm
ZL30142 10 GbE Single SyncE and
Telecom DPLL 101. m–890 3 SE 2k, N x 8K,
SDH, SyncE 1 2 2k, N x 8K,
SDH, SyncE 1 1 1.0 9 x 9
ZL30143 10 GbE Dual SyncE and
Telecom DPLL 201. m–890 8 SE 2k, N x 8K,
SDH, SyncE 2 6 2k, N x 8K,
SDH, SyncE 1 2 1.0 9 x 9
ZL30161 10 GbE Any-Frequency
SyncE PLL/NCO 10.1 m–1 k 11 1 Hz–
750 MHz 6 6 1 Hz–
750 MHz 3 0 0.6 13 x 13
ZL30162 10 GbE Any-Frequency
Quad SyncE PLL/NCO 40.1 m–1 k 11 1 Hz–
750 MHz 8 8 1 Hz–
750 MHz 4 0 0.6 13 x 13
ZL30163 10 GbE Any-Frequency
Dual SyncE PLL/NCO 20.1 m–1 k 11 1 Hz–
750 MHz 8 8 1 Hz–
750 MHz 4 0 0.6 13 x 13
ZL30164 10 GbE Any-Frequency
Triple SyncE PLL/NCO 30.1 m–1 k 11 1 Hz–
750 MHz 8 8 1 Hz–
750 MHz 4 0 0.64 13 x 13
ZL30621 10 GbE and above Single
SyncE PLL/NCO 10.1 m–10 2 D/SE
+ 1 SE
8 kHz–
1250 MHz 3 6 <1 Hz–
1035 MHz 1 0 0.25 5 x 10
ZL30622 10 GbE and above Single
SyncE PLL/NCO 10.1 m–500 2 D/SE
+ 1 SE
8 kHz–
1250 MHz 3 6 <1 Hz–
1035 MHz 1 0 0.25 5 x 5
ZL30623 10 GbE and above Dual
SyncE PLL/NCO 20.1 m–500 4 D/SE
+ 1 SE
8 kHz–
1250 MHz 612 <1 Hz–
1035 MHz 2 0 0.25 5 x 10
ZL30601 Single Channel Network
Synchronizer 10.1 m–448
•
5 D/10 SE 0.5 Hz–
900 MHz
•
614 0.5 Hz–
900 MHz 2 or 3 10.25 10 x 10
ZL30602 Dual Channel Network
Synchronizer 20.1 m–448
•
5 D/10 SE 0.5 Hz–
900 MHz
•
614 0.5 Hz–
900 MHz 2 or 3 10.25 10 x 10
ZL30603 Triple Channel Network
Synchronizer 30.1 m–448
•
5 D/10 SE 0.5 Hz–
900 MHz
•
614 0.5 Hz–
900 MHz 2 or 3 10.25 10 x 10
ZL30604 Quad Channel Network
Synchronizer 40.1 m–448
•
5 D/10 SE 0.5 Hz–
900 MHz
•
614 0.5 Hz–
900 MHz 2 or 3 10.25 10 x 10
Product Description DPLLs BW (Hz) Inputs Input
Frequency
Embedded
PPS
Outputs
(Diff/
CMOS)
Output
Frequency
Low-Jitter
APLLs/GP
Clock Gen
Jitter
ps RMS
Pkg
Size
mm
ZL30151 10 GbE and above Single
SyncE PLL 1 1
–
500 2 D/SE +
1 SE
1 kHz
–
650 MHz 0
–
3/0
–
6<1 Hz
–
650 MHz 1/0 0.25 5 x 5
ZL30165 10 GbE Any-Frequency
Quad SyncE PLL/NCO
4 or
(4 NCO) 5
–
896 8 D/SE 1 kHz
–
750 MHz 8/8 1 kHz
–
750 MHz 4/0 0.63 13 x 13
ZL30166 10 GbE Any-Frequency
Triple SyncE PLL/NCO
3 or
(3 NCO) 5
–
896 9 D/SE +
2 SE
1 kHz
–
750 MHz 8/8 1 kHz
–
750 MHz 4/0 0.63 13 x 13
ZL30167 10 GbE Any-Frequency
Dual SyncE PLL/NCO
2 or
(2 NCO) 5
–
896 9 D/SE +
2 SE
1 kHz
–
750 MHz 8/8 1 kHz
–
750 MHz 4/0 0.63 13 x 13
ZL30611 SyncE Line Card 1 or
(1 NCO) 14
–
448 5 D/10 SE 1 kHz
–
900 MHz •6/14 0.5 Hz
–
650 MHz 3/1 0.25 10 x 10
ZL30612 Dual SyncE
Line Card
2 or
(2 NCO) 14
–
448 5 D/10 SE 1 kHz
–
900 MHz •6/14 0.5 Hz
–
650 MHz 3/1 0.25 10 x 10
ZL30614 Quad SyncE Line Card 4 or
(4 NCO) 14
–
448 5 D/10 SE 1 kHz
–
900 MHz •6/14 0.5 Hz
–
650 MHz 3/1 0.25 10 x 10
8
IEEE 1588 PLL
IEEE 1588 is a protocol-based synchronization mechanism
useful for existing unaware networks where frequency
syntonization is required. When coupled with physical layer
technologies such as Synchronous Ethernet, IEEE 1588 can
also provide robust time alignment. Microsemi offers the
industry’s most comprehensive and cost effective IEEE 1588
solution with a range of products offering ultra-low jitter for
PHYs up to 100G and IEEE 1588 profiles.
IEEE 1588 for Timing Cards
Product Description DPLLs BW
(Hz)
Split XO
Feature Inputs Input
Frequency
Embedded
PPS &
EPP2S
Diff.
Outputs
CMOS
Outputs
Output
Frequency
Low-Jitter
APLLs
GP
Clock
Gen
Jitter
ps
RMS
Pkg
Size
mm
ZL30342
SyncE/SONET/SDH G.8262/
Stratum 3 and IEEE 1588
Packet G.8261 Synchronizer
1 NCO 0.1–890 3 SE N x 8K,
SyncE 1 2 N x 8K,
SDH, SyncE 1-Int-N 11.0 9 x 9
ZL30343
SyncE/SONET/SDH G.8262/
Stratum 3 and IEEE 1588
Packet G.8261 Synchronizer
2 NCO 0.1–890 8 SE N x 8K,
SyncE 2 6 N x 8K,
SDH, SyncE 1-Int-N 21.0 9 x 9
ZL30361 Single Channel Combined IEEE
1588 ToP and SyncE Device 1 NCO 0.1–896 11 1 Hz–
750 MHz 6 6 1 Hz–
750 MHz 3 0 0.6 13 x 13
ZL30362 Quad Channel Combined IEEE
1588 ToP and SyncE Device 4 NCO 0.1–896 11 1 Hz–
750 MHz 8 8 1 Hz–
750 MHz 4 0 0.6 13 x 13
ZL30363 Dual Channel Combined IEEE
1588 ToP and SyncE Device 2 NCO 0.1–896 11 1 Hz–
750 MHz 8 8 1 Hz–
750 MHz 4 0 0.6 13 x 13
ZL30364 Triple Channel Combined IEEE
1588 ToP and SyncE Device 3 NCO 0.1–896 11 1 Hz–
750 MHz 8 8 1 Hz–
750 MHz 4 0 0.64 13 x 13
ZL30721 Single Channel Combined IEEE
1588 ToP and SyncE Device 1 NCO 0.1–10 2 D/SE
+ 1 SE
8 kHz–
1250 MHz 3 6 <1 Hz–
1035 MHz 1 0 0.25 5 x 10
ZL30722 Single Channel Combined IEEE
1588 ToP and SyncE Device 1 NCO 0.1–500 2 D/SE
+ 1 SE
8 kHz–
1250 MHz 3 6 <1 Hz–
1035 MHz 1 0 0.25 5 x 5
ZL30723 Dual Channel Combined IEEE
1588 ToP and SyncE Device 2 NCO 0.1–500 4 D/SE
+ 1 SE
8 kHz–
1250 MHz 612 <1 Hz–
1035 MHz 2 0 0.25 5 x 10
ZL30701 Single Channel IEEE 1588
Synchronizer
1 or
(1 NCO) 0.1 m–448
•
5 D/
10 SE
0.5 Hz–
900 MHz
•
614 0.5 Hz–
900 MHz 2 or 3 10.25 10 x 10
ZL30702 Dual Channel IEEE 1588
Synchronizer
2 or
(2 NCO) 0.1 m–448
•
5 D/
10 SE
0.5 Hz–
900 MHz
•
614 0.5 Hz–
900 MHz 2 or 3 10.25 10 x 10
ZL30703 Triple Channel IEEE 1588
Synchronizer
3 or
(3 NCO) 0.1 m–448
•
5 D/
10 SE
0.5 Hz–
900 MHz
•
614 0.5 Hz–
900 MHz 2 or 3 10.25 10 x 10
ZL30704 Quad Channel IEEE 1588
Synchronizer
4 or
(4 NCO) 0.1 m–448
•
5 D/
10 SE
0.5 Hz–
900 MHz
•
614 0.5 Hz–
900 MHz 2 or 3 10.25 10 x 10
Timing ICs
IEEE 1588 for Line Cards
Product Description DPLLs BW (Hz) Inputs Input
Frequency
Diff.
Outputs
CMOS
Outputs
Output
Frequency
Low-Jitter
APLLs
GP Clock
Gen
Jitter ps
RMS
Pkg Size
mm
ZL30347 10 GbE Any Frequency
Stratum 2/3E/3 DPLL 10.5 m
–
400 2 D/SE Nx8k, SyncE 2 6 N x 8K, SDH,
SyncE 1-Int-N 21.0 9 x 9
ZL30365 Quad Channel Combined
IEEE 1588 ToP and SyncE Device 4 NCO 5–890 8 D/SE 1 Hz–
750 MHz 8 8 <1 Hz–
750 MHz 4 0 0.65 13 x 13
ZL30367 Dual Channel Combined
IEEE 1588 ToP and SyncE Device 2 NCO 5–890 9 D/
SE+2 SE
1 Hz–
750 MHz 6 6 <1 Hz–
750 MHz 3 0 0.65 13 x 13
9
Clock Management
Microsemi’s clock management portfolio provides devices for
clock synthesis, frequency conversion, jitter attenuation, and
fan out buffers to reduce bill of material costs and board space
requirements, improve performance reliability, and simplify
design complexity. Key features include industry-leading
ultra-low jitter, high integration, wide frequency range, and
highly programmable outputs.
Clock Synthesis Devices
Product
Independent
Output Freq.
Families
Inputs Crystal Input
Freq. Range
Xtal Osc. or
CMOS Input
Freq. Range
Diff Input
Freq. Range
Typical
Jitter fs
RMS
NCO
ppb
Outputs
Diff/CMOS
Output Freq.
Range
NV
Memory
Host
Bus
Pkg
Size,
mm
MAX24405 21 XTAL/SE,
3 D/SE 25 M–52 M 9.72 M–160 M 9.72 M–750 M 1801–0-5/0-10 <1 Hz–750 M Ext EE SPI 10 x 10
MAX24505 21 XTAL/SE,
3 D/SE 25 M–52 M 9.72 M–160 M 9.72 M–750 M 1801–0-5/0-10 <1 Hz–750 M Int EE SPI 10 x 10
MAX24410 21 XTAL/SE,
3 D/SE 25 M–52 M 9.72 M–160 M 9.72 M–750 M 1801–
0-10/0-20
<1 Hz–750 M Ext EE SPI 10 x 10
MAX24510 21 XTAL/SE,
3 D/SE 25 M–52 M 9.72 M–160 M 9.72 M–750 M 1801–
0-10/0-20
<1 Hz–750 M Int EE SPI 10 x 10
ZL30250 11 XTAL/SE,
3 D/SE 25 M–60 M 9.72 M–300 M 9.72 M–1250 M 16010.01
0-3/0-6
<1 Hz–1035 M2Ext EE3SPI/I2C 5 x 5
ZL30251 11 XTAL/SE,
3 D/SE 25 M–60 M 9.72 M–300 M 9.72 M–1250 M 16010.01
0-3/0-6
<1 Hz–1035 M2Int EE3SPI/I2C 5 x 5
ZL30244 22 XTAL/SE,
6 D/SE 25 M–60 M 9.72 M–300 M 9.72 M–1250 M 16010.01
0-6/0-12
<1 Hz–1035 M2Ext EE3SPI/I2C 5 x 10
ZL30245 22 XTAL/SE,
6 D/SE 25 M–60 M 9.72 M–300 M 9.72 M–1250 M 16010.01
0-6/0-12
<1 Hz–1035 M2Int EE3SPI/I2C 5 x 10
Abbreviation Key: D = Differential SE = Single-ended (CMOS) NCO = Numerically controlled oscillator
Ext EE = External EEPROM Int EE = Internal EEPROM Supply Voltage = 3.3+1.8
1 = Integer-mode APLL-only operation 2 = Spread spectrum capable 3 = Up to four configurations pin-selectable
Rate Conversion/Jitter Attenuation Devices
Abbreviation Key: D = Differential SE = Single-ended (CMOS) NCO = Numerically controlled oscillator
Ext EE = External EEPROM Int EE = Internal EEPROM Supply Voltage = 3.3+1.8
1 = Integer-mode APLL-only operation 2 = Spread spectrum capable 3 = Up to four configurations pin-selectable
Product
Independent
Output Freq.
Families
Inputs
Crystal
Input
Freq.
Range
XTAL Osc. or
CMOS Input
Freq. Range
Diff Input
Freq.
Range
Typical
Jitter fs
RMS
DPLL Features:
Ref. Switching/
Holdover/
Bandwidth
NCO
ppb
Outputs
Diff/CMOS
Output Freq.
Range
NV
Memory
Host
Bus
Pkg
Size,
mm
MAX24605 21 XTAL/SE,
3 D/SE 25 M–52 M 2 KHz–160 M 2 KHz–750 M 1801
Glitchless/
Digital Hold/
4 Hz–400 Hz
<0.001 0-5/0-10 <1 Hz–750 M Ext EE SPI 10 x 10
MAX24610 21 XTAL/SE,
3 D/SE 25 M–52 M 2 KHz–160 M 2 KHz–750 M 1801
Glitchless/
Digital Hold/
4 Hz–400 Hz
<0.001 0-10/0-20 <1 Hz–750 M Ext EE SPI 10 x 10
ZL30252 11 XTAL/SE,
3 D/SE 25 M–60 M 1 kHz–300 M 1 kHz–1250 M 1601
Glitchless/
Digital Hold/
14 Hz–500 Hz
0.01 0-3/0-6 <1 Hz–1035 M2Ext EE3SPI/
I2C 5 x 5
ZL30253 11 XTAL/SE,
3 D/SE 25 M–60 M 1 kHz–300 M 1 kHz–1250 M 1601
Glitchless/
Digital Hold/
14 Hz–500 Hz
0.01 0-3/0-6 <1 Hz–1035 M2Int EE3SPI/
I2C 5 x 5
ZL30254 11 XTAL,
2 SE 49.152 MHz 8 kHz or
25 MHz –<1ps
Glitchless/
Digital Hold/
25 Hz
–2/0 125 MHz or
156.25 MHz –None 5 x 5
ZL30255 22 XTAL/SE,
6 D/SE 25 M–60 M 1 kHz–300 M 1 kHz–1250 M 1601
Glitchless/
Digital-Hold/
14 Hz–500 Hz
0.01 0-6/0-12 <1 Hz–1035 M2Int EE3SPI/
I2C 5 x 10
Timing ICs
10
Timing ICs
Microsemi high-performance buffers deliver industry leading
power supply noise rejection performance and low additive jitter.
This preserves signal integrity resulting in high performance while
simplifying engineering board design efforts.
Precision Differential Fanout Buffers
Product Output
Type Inputs Outputs Input
Termination Switching
750 MHz
Additive
Jitter fs
RMS typ
Input
Type
Input
Coupling
Operating
Frequency
Power
Supply, V
Operating
Temp., °C Pkg
Pkg
Size,
mm
ZL40200
LVPECL
1
2External
N/A
30
–
40
LVPECL
LVDS
HCSL
CML
DC or AC Up to
750 MHz 2.5 or 3.3
–
40 to 85
QFN-16 3 x 3
ZL40201 Internal
ZL40202 4External
ZL40203 Internal
ZL40204 6External
QFN-32 5 x 5
ZL40205 Internal
ZL40206
8
External
ZL40207 Internal
ZL40224
2
External Simple
ZL40225 Internal
ZL40208 6External
Glitch
Free 106
–
121
ZL40209 Internal
ZL40210 8External
ZL40211 Internal
ZL40212
LVDS
1
2External
N/A
78
–
138
QFN-16 3 x 3
ZL40213 Internal
ZL40214 4External
ZL40215 Internal
ZL40216 6External
QFN-32 5 x 5
ZL40217 Internal
ZL40218
8
External
ZL40219 Internal
ZL40226
2
External Simple
ZL40227 Internal
ZL40220 6External
Glitch
Free 165
–
194
ZL40221 Internal
ZL40222 8External
ZL40223 Internal
11
FPGAs
FPGAs: Best-in-Class for Industrial IoT Infrastructure
Microsemi SmartFusion2 SoC FPGAs offer more resources in low density devices with the lowest power, proven security features,
and exceptional reliability. These Flash FPGA devices are ideal for general purpose functions such as Gigabit Ethernet or dual
PCI Express control planes, bridging functions, input/output (I/O) expansion and conversion, video/image processing, system
management, and secure connectivity. Microsemi’s SoC FPGAs enable a wide variety of these complex systems, deployed at
the lowest power and smallest form factor. These FPGAs also deploy best-in-class security solutions that prevent tampering,
counterfeiting, and installation of malicious code.
Key Features
• 166 MHz ARM Cortex-M3 with hard 10/100/100
Ethernet MAC
• Industrial Ethernet protocol support on a single
FPGA platform, lowering TCO
• Ethernet protocols supported: MII, RGMII, GMII, SGMII
• Continued use of heterogenous installed base
of Ethernet/fieldbus equipment
• Broad array of SoC IP with all the different building
blocks needed for Industrial Ethernet communications
(including system I/O expansion, glue logic, and other
communications interfaces)
Features
2,3
M2S005 M2S010 M2S025 M2S050 M2S060 M2S090 M2S150
Logic/DSP
Maximum Logic Elements (4LUT + DFF)
1
6,060 12,084 27,696 56,340 56,520 86,184 146,124
Math Blocks (18x18) 11 22 34 72 72 84 240
Fabric Interface Controllers (FICs) 1 2 1 2
PLLs and CCCs 2 6 8
Data Security AES256, SHA256, RNG AES256, SHA256, RNG, ECC, PUF
MSS
Cortex-M3 + Instruction cache Yes
eNVM (K Bytes) 128 256 512
eSRAM (K Bytes) 64
eSRAM (K Bytes) Non SECDED 80
CAN, 10/100/1000 Ethernet, HS USB 1 each
Multi-Mode UART, SPI, I2C, Timer 2 each
Fabric
Memory
LSRAM 18K Blocks 10 21 31 69 69 109 236
uSRAM1K Blocks 11 22 34 72 72 112 240
Total RAM (K bits) 191 400 592 1314 1314 2074 4488
High
Speed
DDR Controllers (Count x Width) 1x18 2x36 271 1x18 2x36
SERDES Lanes (T) 0 4844 16
PCIe End Points 0 1 2 4
User I/Os
MSIO (3.3 V) 115 123 157 139 271 309 292
MSIOD (2.5 V) 28 40 40 62 40 40 106
DDRIO (2.5 V) 66 70 70 176 76 76 176
Total User I/O 209 233 267 377 387 425 574
Grades Commercial (C), Industrial (I), Military (M) C, I C, I, M
1 Total logic may vary based on utilization of DSP and memories in your design. Please see the IGLOO2 Fabric UG for details
2 Feature availability is package dependent
3 Data security features are only available in ‘S’ and ‘TS’ devices
©
2016 Microsemi Corporation. All rights reserved.
Microsemi and the Microsemi logo are registered
trademarks of Microsemi Corporation. All other
trademarks and service marks are the property
of their respective owners.
Microsemi makes no warranty, representation, or guarantee regarding the information contained herein or the suitability of its products and services for any
particular purpose, nor does Microsemi assume any liability whatsoever arising out of the application or use of any product or circuit. The products sold
hereunder and any other products sold by Microsemi have been subject to limited testing and should not be used in conjunction with mission-critical equipment
or applications. Any performance specifications are believed to be reliable but are not verified, and Buyer must conduct and complete all performance and other
testing of the products, alone and together with, or installed in, any end-products. Buyer shall not rely on any data and performance specifications or parameters
provided by Microsemi. It is the Buyer’s responsibility to independently determine suitability of any products and to test and verify the same. The information
provided by Microsemi hereunder is provided “as is, where is” and with all faults, and the entire risk associated with such information is entirely with the Buyer.
Microsemi does not grant, explicitly or implicitly, to any party any patent rights, licenses, or any other IP rights, whether with regard to such information itself
or anything described by such information. Information provided in this document is proprietary to Microsemi, and Microsemi reserves the right to make any
changes to the information in this document or to any products and services at any time without notice.
Microsemi Corporation (Nasdaq: MSCC) offers a comprehensive portfolio of semiconductor and system solutions for aerospace
& defense, communications, data center and industrial markets. Products include high-performance and radiation-hardened
analog mixed-signal integrated circuits, FPGAs, SoCs and ASICs; power management products; timing and synchronization
devices and precise time solutions, setting the world’s standard for time; voice processing devices; RF solutions; discrete
components; enterprise storage and communication solutions, security technologies and scalable anti-tamper products;
Ethernet solutions; Power-over-Ethernet ICs and midspans; as well as custom design capabilities and services. Microsemi is
headquartered in Aliso Viejo, California and has approximately 4,800 employees globally. Learn more at www.microsemi.com.
Microsemi Corporate Headquarters
One Enterprise, Aliso Viejo, CA 92656 USA
Within the USA: +1 (800) 713-4113
Outside the USA: +1 (949) 380-6100
Fax: +1 (949) 215-4996
Email: sales.support@microsemi.com
www.microsemi.com
IE Network Solutions 1.0. 08/16
Signal Conditioners and Crosspoint Switches
Signal Conditioners and Crosspoint Switches: For the Ultimate in Flexibility & Performance
Microsemi offers a wide range of signal conditioner and crosspoint switch ICs across port speeds, channel counts, and practical feature
sets for industrial applications. Microsemi products deliver many industry-leading features such as very low jitter as well as autonomous
equalization for demanding backplane, module host, and high port count Layer-1 switching applications. Microsemi’s low power, multi-
protocol family of signal conditioners includes both redrivers and retimers and delivers the ultimate in flexibility and performance.
Key Features
• Data rates up to 16 Gbps
• Per channel adaptive input equalization and
gain adjustment
• Per channel output multi-tap de-emphasis and drive
level adjustment
• Power-saving green mode options including ability
to power down unused ports
Why Microsemi for IIoT Networking?
Microsemi is the only IC, systems, and software provider with a power-optimized, flexible, and reliable industrial Ethernet networking
portfolio that supports Ethernet interfaces and fieldbus protocols for a broad range of Industrial Ethernet applications, enabling highly
reliable, and secure IIoT networks.
Contact us today to learn how you can get to market faster with Microsemi IIoT solutions.
Product Number Ports Device Type Min Temp (Ambient) Max Temp (Junction) Max Data Rate
VSC7111 Dual 2x2 Redriver –40 °C 110 °C 11.5 Gbps
VSC7113 Dual 2x2 Redriver –40 °C 110 °C 10.3 Gbps
VSC7223 4Retimer –40 °C 90 °C 16 Gbps
VSC7224 4Retimer –40 °C 110 °C 12.5 Gbps
VSC7227 12 Retimer –40 °C 100 °C 14.5 Gbps
VSC8247 4Retimer 0 °C 95 °C 11.3 Gbps
VSC8248 4 (bi-dir) Retimer 0 °C 95 °C 11.3 Gbps
VSC3308 8x8 Redriver –40 °C 100 °C 11.5 Gbps
VSC3316 16x16 Redriver –40 °C 100 °C 11.5 Gbps
