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HomeProductsIntegrated Circuits (ICs)Specialized ICsMAX9247GCM+
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MAX9247GCM+ - Maxim

Manufacturer Part Number
MAX9247GCM+
Manufacturer
Maxim Integrated
Allelco Part Number
41D-MAX9247GCM+
Warranty
1 Year Allelco Warranty - Find out more
Stock Status:
13,140 pcs available, New & Original
Parts Description
MAX9247GCM+
Data sheet
-
Category
Integrated Circuits (ICs) > Specialized ICs
RoHs Status
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Our certification
In stock: 13140
  • Unit Price: $7.047
  • Subtotal: $0.00

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Quantity Unit Price Ext. Price
1+ $7.047 $7.05
250+ $2.727 $681.75
500+ $2.631 $1,315.50
1000+ $2.584 $2,584.00
The above prices does not include taxes and freight rates, which will be calculated on the order pages.

Specifications

MAX9247GCM+ Tech Specifications
Maxim - MAX9247GCM+ technical specifications, attributes, parameters and parts with similar specifications to Maxim - MAX9247GCM+

Product Attribute Attribute Value
Part Number MAX9247GCM+
Package MAX9247GCM+
Description MAX9247GCM+
Stock Condition Get 13140 pcs available quantity at Allelco
Payment PayPal / TT / Credit Card / Western Union
Allelco Certifications ESD / ISO 9001 / ISO 13485 / ISO 28000
Product Attribute Attribute Value
Manufacturer Maxim Integrated
RoHs Status -
Warranty 100% Perfect Functions
Transport port Hong Kong
Shipping by DHL / FedEx / UPS / TNT / SF Express
RFQ Email info@allelco.com

Parts Introduction

Manufacturer Part Number

MAX9247GCM+

Manufacturer

Analog Devices

Introduction

The MAX9247GCM+ is a high-speed serializer that converts 27 parallel LVCMOS/LVTTL inputs into a single LVDS output. It operates at data rates up to 756Mbps and supports a wide range of operating voltages from 3V to 3.6V, making it suitable for various industrial and consumer applications.

Product Features and Performance

27 parallel LVCMOS/LVTTL inputs

Single LVDS output

Data rates up to 756Mbps

Supports 3V to 3.6V operating voltages

Wide operating temperature range of -40°C to 105°C

Product Advantages

High-speed data transmission

Low power consumption

Compact surface-mount package

Wide operating voltage and temperature range

Key Reasons to Choose This Product

Reliable and high-performing serializer solution

Versatile compatibility for diverse applications

Cost-effective design for efficient implementation

Robust operating capabilities for demanding environments

Quality and Safety Features

Rigorously tested for quality and reliability

Complies with industry safety standards

Compatibility

The MAX9247GCM+ is compatible with a wide range of LVCMOS/LVTTL input devices and LVDS-based systems.

Application Areas

Industrial automation and control systems

Audio/video equipment

Imaging and display systems

Telecommunications infrastructure

Automotive electronics

Product Lifecycle

The MAX9247GCM+ is an active product, and there are no immediate plans for discontinuation. Analog Devices may offer equivalent or alternative models in the future, but you can contact our website's sales team for the latest product information and availability.

Frequently Asked Questions(FAQ)

What are the key electrical characteristics of the MAX9247GCM+ serializer that influence high-speed data transmission reliability in industrial vision systems?
The MAX9272GCM+ operates at a 756Mbps serial data rate with a supply voltage range of 3V to 3.6V, which supports stable operation in environments requiring low power consumption and noise immunity. Its LVCMOS and LVTTL input compatibility allows direct interface with digital image sensors or FPGAs without level-shifting circuitry. The LVDS output minimizes electromagnetic interference while maintaining signal integrity over long traces or cables, which is critical for multi-camera synchronization in vision systems.
How does the MAX9247GCM+ compare to other deserializers in terms of input count and bandwidth when designing a 27-lane video pipeline?
The MAX9272GCM+ uniquely supports 27 parallel inputs serialized into a single high-speed LVDS stream, making it suitable for high-resolution imaging applications where fewer physical links reduce PCB complexity. While alternative solutions may offer higher channel counts per device, they often require additional serializer/deserializer pairs or external clocking, increasing latency and synchronization overhead. The MAX9272’s integrated design simplifies system architecture compared to discrete implementations, though careful attention must be paid to thermal performance under sustained data loads.
What environmental and compliance considerations should engineers evaluate before selecting the MAX9272GCM+ for automotive or industrial deployment?
With an operating temperature range from -40°C to 105°C (TA), the MAX9272GCM+ meets stringent requirements for harsh environments such as factory automation or vehicle-mounted systems. It complies with ROHS3 standards and has an MSL rating of 1, allowing unlimited floor life during assembly—reducing handling risks in mass production. Additionally, its REACH unaffected status and ECCN classification as EAR99 simplify global supply chain logistics and export control documentation.
Can the MAX9272GCM+ reliably interface with legacy LVCMOS sensor outputs without additional buffering or reference voltage adjustment?
Yes, the MAX9272GCM+ accepts both LVCMOS and LVTTL logic levels directly on its 27 inputs, enabling compatibility with a wide range of CMOS image sensors and digital logic devices. However, designers must ensure input signals meet minimum assertion thresholds defined in the datasheet, particularly when sourcing from older-generation sensors with marginal noise margins. In practice, this typically requires proper PCB layout with controlled impedance and decoupling near the input pins to maintain timing accuracy at 756Mbps.
How does power supply stability affect jitter performance in the MAX9272GCM+, and what design precautions are recommended?
Fluctuations in the 3V–3.6V supply can introduce deterministic jitter due to reference clock instability and analog core fluctuations. To minimize impact, engineers should use low-ESR ceramic bypass capacitors placed within 2mm of the VDD pins and implement a clean power delivery network. Simulation of transient response under load changes is advisable, especially in systems where other high-current components share the same rail. A well-designed regulator with adequate headroom ensures consistent serialization accuracy across temperature extremes.
What role does the 48-LQFP (7x7) package play in thermal management and routing density for space-constrained designs using the MAX9272GCM+?
The compact 7x7 mm LQFP package enables integration into densely populated PCBs common in embedded vision modules. However, its small size limits exposed thermal dissipation unless supplemented by a ground plane or thermal pad underfill. Routing all 27 input lines plus power/clock requires careful layer stack planning in multi-layer boards to avoid crosstalk and skew. Signal return paths should be prioritized beneath high-speed nets to preserve timing margins.
Is the MAX9272GCM+ suitable for bidirectional communication, and if not, what alternatives exist for duplex data transfer?
No, the MAX9272GCM+ is unidirectional—it only serializes incoming parallel data into a single LVDS output. For bidirectional applications, designers must pair it with a compatible deserializer such as the MAX9273, which reverses the process. This creates a full-duplex link only when both ends support complementary serializer/deserializer functionality, often used in modular camera backplane architectures.
How does clock recovery implementation affect system-level latency when using the MAX9272GCM+ in a real-time control loop?
Since the MAX9272GCM+ outputs a serialized stream without embedded clocking, external deserialization (e.g., via MAX9273) requires either a separate clock line or use of a CDR-capable receiver. Without embedded clocking, latency increases slightly due to deserialization processing time and buffer management. Designers aiming for minimal end-to-end delay should evaluate whether adding a clock channel adds unacceptable pin count or trace complexity versus tolerating modest deserialization overhead.
What are the implications of the MAX9272GCM+’s Moisture Sensitivity Level (MSL) 1 rating for production testing and shelf life?
MSL 1 indicates unlimited shelf life before reflow, provided storage conditions remain below 30°C and 60% relative humidity. This eliminates the need for bake-out cycles before assembly, streamlining prototyping and volume manufacturing. Engineers can safely store populated PCBs for weeks without degradation of solder joint reliability, simplifying just-in-time inventory practices.
How does the choice between surface mount and alternative packaging affect long-term reliability of systems using the MAX9272GCM+?
As a surface-mount device in LQFP format, the MAX9272GCM+ benefits from automated pick-and-place assembly and superior mechanical attachment to FR4 substrates compared to through-hole alternatives. Proper solder paste printing and reflow profiling are essential to avoid voids or tombstoning, especially given the fine-pitch leads. Underfilled packages may be considered in vibration-prone environments, though standard SAC305 solder joints typically suffice for most industrial applications.
What are typical application scenarios where the MAX9272GCM+ outperforms simpler 8-bit or 16-bit serializers?
The MAX9272GCM+ excels in applications demanding high pixel throughput with limited interconnect bandwidth, such as 2MP to 5MP CMOS cameras using 27-bit parallel buses. Unlike lower-channel devices, it reduces connector count and cable weight while supporting resolutions up to 1080p60 or beyond without sacrificing frame rates. Its integration level also lowers BOM cost compared to multiple discrete components, though board area remains comparable.
How does temperature derating affect output drive strength or input sensitivity in the MAX9272GCM+?
While absolute maximum ratings define safe operating limits, internal analog circuits exhibit slight variation in threshold voltages and slew rates across the -40°C to 105°C range. At elevated temperatures, input rise/fall times may slow slightly, potentially impacting setup and hold margins. Designers should validate eye diagrams at worst-case temperatures during qualification, possibly reducing margin slightly in final products to accommodate this behavior.
Can the MAX9272GCM+ be cascaded with another serializer to increase effective input bandwidth?
Cascading serializers is generally impractical due to synchronization challenges between independent clocks and lack of native handshake protocols. Instead, systems requiring more than 27 inputs should consider using two MAX9272GCM+ devices with separate LVDS outputs driven to different deserializers, ensuring shared clock domains and careful timing alignment. This approach increases complexity but maintains signal integrity better than attempting inter-device coordination.
What precautions are necessary when routing the LVDS output from the MAX9272GCM+ to avoid EMI and signal degradation?
The LVDS output should be routed as a controlled-impedance differential pair (typically 100Ω) with matched length and spacing to prevent mode conversion and radiation. Minimize vias and keep traces short; avoid parallel routing with noisy aggressors like switching regulators. Terminate at the receiver end with a resistor matching the characteristic impedance, and ensure the return path provides a quiet ground reference to maintain common-mode rejection.
How does the absence of built-in error detection in the MAX9272GCM+ influence system-level fault tolerance strategies?
Since the MAX9272GCM+ performs only physical-layer serialization without CRC or parity, errors due to noise, crosstalk, or clock drift manifest as corrupted data at the receiver. System designers must implement higher-layer validation such as frame checksums or protocol-level retries, particularly in safety-critical applications. Redundant signaling or watchdog timers may be added depending on required availability levels.
What impact does PCB material selection have on signal integrity when implementing the MAX9272GCM+ at 756Mbps?
High-frequency losses in standard FR4 increase significantly above 100MHz, affecting LVDS signal rise times and causing attenuation over longer traces. Using low-loss laminates like Rogers 4350B or Isola I-Tera reduces dielectric loss, preserving signal quality over distances exceeding 100mm. Even in shorter runs, proper impedance control and termination remain vital regardless of substrate choice.

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Customer Reviews

Evaluation: 10 Articles

  • Dani***alkerTech
    Jun 1, 2026

    Product works, but setup took more effort than expected. Once configured the MCU ran reliably, although documentation support felt older compared with newer platforms. Fine for maintenance projects.

  • Yuki***aka88
    May 26, 2026

    信号通信プロジェクトでこのRS-485トランシーバーを使用しました。設置は簡単で、長距離ケーブルでも通信は安定していました。消費電力も、以前使用していたものより低くなっています。

  • Stev***aker
    May 20, 2026

    Solid diode for power rectification. Works well in switching circuits.

  • Bran***Lewis
    May 11, 2026

    Compact FPGA with good performance. Suitable for basic signal processing tasks.

  • Oliv***arris
    May 7, 2026

    Reliable I/O expander. Works well in embedded control applications.

  • Jess***Jones
    Apr 17, 2026

    It offers good value for the price, and the specifications match the description. I’ve been using it for two days with no issues, and I’ll definitely buy it again if I need it in the future.

  • Mich***Smith
    Apr 17, 2026

    Shipping was on time, the component pins are neatly aligned, and I tested 10 of them with a multimeter—all readings were within the specified range. Highly recommended.

  • Aman***arris
    Apr 3, 2026

    It was great—the entire process, from placing the order to receiving the package, went very smoothly. The components were consistent, the price was fair, and I had a very pleasant shopping experience.

  • Mike***nch
    Apr 3, 2026

    Better than expected! The resistance and capacitance readings were spot-on, and it passed the test on the first try. The service was reliable, and the packaging was thoughtful—I highly recommend it.

  • Daic***K.
    Mar 23, 2026

    Very good. No issue after long time testing.

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Shipment

Delivery Time

In-stock items can be shipped within 24 hours. Some parts will be arranged for delivery within 1-2 days from the date all items arrive at our warehouse. And Allelco ships order once a day at about 17:00, except Sunday. Once the goods are shipped, the estimated delivery time depends on the shipping methods and Delivery destination. The table below shows are the logistic time for some common countries.

Delivery Cost

  1. Use your express account for shipment if you have one.
  2. Use our account for the shipment. Refer to the table below for the approximate charges.
(Different time frame / countries / package size has different price.)

Delivery Method

  1. Global Common Shipment by DHL / UPS / FedEx / TNT / EMS / SF we support.
  2. Others more shipping ways, please get in touch with your customer manager.

Common Countries Logistic Time Reference
Region Country Logistic Time(Day)
America United States 5
Brazil 7
Europe Germany 5
United Kingdom 4
Italy 5
Oceania Australia 6
New Zealand 5
Asia India 4
Japan 4
Middle East Israel 6
DHL & FedEx Shipment Charges Reference
Shipment charges(KG) Reference DHL(USD$)
0.00kg-1.00kg USD$30.00 - USD$60.00
1.00kg-2.00kg USD$40.00 - USD$80.00
2.00kg-3.00kg USD$50.00 - USD$100.00
Note:
The above table is for reference only. There may have some data bias for the uncontrollable factors.
Contact us if you have any questions.
  • QC (Quality Warranty)
  • Payment Support
  • Packaging
  • Certifications & Memberships

QC (Quality Warranty)

Allelco is committed to exceeding customer expectations through customer service excellence, order accuracy, and on-time delivery.
This is achieved through our commitment to the continual improvement of our processes, services, and products.


Strict quality inspection builds a solid foundation for electronic component quality.
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We eliminate defective components and ensure the stable operation of electronic devices through professional quality standards.
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Packaging

Electrostatic Discharge Protection and Handling

All electrostatic-sensitive components are handled in accordance with electrostatic discharge control procedures. The products are hermetically sealed in anti-static safe packaging to prevent electrostatic damage. Appropriate labeling is also applied for identification and traceability. This ensures product integrity during storage, handling and transportation.


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Certifications & Memberships

Third-party certified, strict quality control. Our certification
  • ISO 9001: 2015
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  • GB/T 27922-2011
  • SMTA
  • IPC
  • ESD
  • PSMA
Maxim

MAX9247GCM+

Maxim
41D-MAX9247GCM+

Want a better price? Add to Cart and Submit RFQ now, we'll contact you immediately.

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