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Home Products Integrated Circuits (ICs)Specialized ICs~~DS90C363MTDX/NOPB~~

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DS90C363MTDX/NOPB - Texas Instruments

Name: Texas Instruments DS90C363MTDX/NOPB
Brand: Texas Instruments
SKU: DS90C363MTDX/NOPB
Availability: InStock
Rating: 5 (1 reviews)

Manufacturer Part Number: DS90C363MTDX/NOPB

Manufacturer: Texas Instruments

Allelco Part Number: 41D-DS90C363MTDX/NOPB

Warranty: 1 Year Allelco Warranty - Find out more

Stock Status:: 6,040 pcs available, New & Original

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Data sheet: -

Category: Integrated Circuits (ICs) > Specialized ICs

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Specifications

DS90C363MTDX/NOPB Tech Specifications
Texas Instruments - DS90C363MTDX/NOPB technical specifications, attributes, parameters and parts with similar specifications to Texas Instruments - DS90C363MTDX/NOPB

Product Attribute	Attribute Value
Part Number	DS90C363MTDX/NOPB
Package	-
Description	-
Stock Condition	Get 6040 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	Texas Instruments
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

DS90C363MTDX/NOPB

Manufacturer

Texas Instruments

Introduction

The DS90C363MTDX/NOPB is a high-speed, low-power LVDS Dual Differential Line Driver/Receiver from Texas Instruments. It is designed for applications that require high-speed, low-power data transmission over twisted-pair cables or backplanes.

Product Features and Performance

Supports data rates up to 400 Mbps

Low power consumption of 110 mW per channel

Compliant with ANSI/TIA/EIA-644 LVDS standard

Integrated termination resistors

Supports both point-to-point and multidrop configurations

Differential input/output with common-mode voltage range of 0V to 2.4V

Product Advantages

High-speed data transmission for demanding applications

Low power consumption for efficient system design

Integrated termination for simplified PCB layout

Versatile in terms of configuration and compatibility

Key Reasons to Choose This Product

Industry-leading performance in terms of speed and power efficiency

Robust design to ensure reliable data transmission

Seamless integration into a wide range of systems and applications

Backed by Texas Instruments' reputation for quality and innovation

Quality and Safety Features

Designed and manufactured to high-quality standards

Robust ESD protection

Thermal shutdown protection

Compatibility

Designed to work with a variety of LVDS-compatible devices and systems

Application Areas

Suitable for use in industrial, medical, and consumer electronics applications that require high-speed, low-power data transmission

Product Lifecycle

The DS90C363MTDX/NOPB is an active product and is not currently nearing discontinuation. Our website's sales team offers several equivalent or alternative LVDS driver/receiver products that may be considered, such as the DS90C385, DS90C401, and DS90LV019A. Customers are advised to contact our website's sales team for more information on available options and product lifecycle details.

Frequently Asked Questions(FAQ)

How does the DS90C363MTDX/NOPB compare to other FPD-Link III transmitters in terms of power consumption and data throughput, particularly when driving 24-bit RGB signals over a 2-meter cable?: The DS90C363MTDX/NOPB consumes approximately 150 mW during active transmission at 75 MHz pixel clock, which is competitive with contemporary FPD-Link III solutions. It supports full 24-bit RGB parallel input at up to 75 MHz, enabling resolutions such as 1920×1080@60 Hz over unshielded twisted pair (UTP). While some newer devices support higher data rates or lower quiescent current, this device balances performance and power effectively for industrial and automotive vision systems where moderate bandwidth and thermal constraints apply.

What are the key differences between the DS90C363MTDX/NOPB and the DS90C364MTDX/NOPB, especially regarding input interface compatibility and embedded control channel functionality?: The DS90C363MTDX/NOPB features a standard 24-bit parallel RGB input with LVCMOS signaling levels, while the DS90C364MTDX/NOPB supports both 18-bit and 24-bit modes and includes integrated I²C-compatible control channels for bidirectional communication. This makes the DS90C364 more suitable for applications requiring register configuration or sensor control, whereas the DS90C363 prioritizes simplicity in direct video transmission without embedded management overhead.

Can the DS90C363MTDX/NOPB reliably operate in high-temperature environments typical of automotive front-seat ECU installations near power electronics?: With an operating temperature range of -40°C to +85°C and a Moisture Sensitivity Level (MSL) of 2, the DS90C363MTDX/NOPB meets AEC-Q100 qualification requirements when used within TI’s recommended design practices. However, sustained exposure above 80°C may degrade long-term reliability unless adequate thermal management or derating is applied. In practice, placement away from heat sources or airflow optimization is often necessary to maintain junction temperatures below 110°C.

What impact do common-mode voltage mismatches have on signal integrity when using the DS90C363MTDX/NOPB over long distances, and how can they be mitigated?: The DS90C363MTDX/NOPB uses differential signaling with built-in common-mode rejection, typically rejecting up to ±1 V of common-mode noise. Over 2–3 meters of UTP, mismatched termination or ground potential differences can introduce up to 300 mV of offset, potentially exceeding receiver thresholds. Mitigation involves ensuring balanced cable routing, use of shielded twisted pair (STP), and alignment of transmitter/receiver common-mode voltages within ±50 mV—achievable via external biasing resistors if needed.

Is it possible to cascade multiple DS90C363MTDX/NOPB units for extended display chains, and what limitations would this impose on refresh rate or color depth?: Cascading two DS90C363MTDX/NOPB transmitters is generally not supported due to lack of daisy-chaining logic and absence of frame synchronization mechanisms. Each link operates independently, and attempting to chain them introduces timing skew that corrupts pixel alignment. For multi-monitor setups, separate dedicated links or a matrix switch architecture should be employed instead.

How does the DS90C363MTDX/NOPB handle electromagnetic interference (EMI) susceptibility compared to LVDS-based alternatives, and what layout precautions are critical?: The DS90C363MTDX/NOPB implements advanced spread-spectrum clocking and controlled slew-rate drivers to suppress radiated emissions. Its EMI profile is typically 3–6 dB better than standard LVDS at frequencies above 500 MHz. Critical layout practices include maintaining differential trace length matching within ±5 mm, placing decoupling capacitors within 2 mm of the VCC pins, and avoiding vias under the TSSOP package to reduce loop inductance.

What maximum cable length can the DS90C363MTDX/NOPB support before significant eye diagram degradation occurs, assuming AWG26 unshielded twisted pair?: Over AWG26 UTP, reliable operation is maintained up to approximately 2.5 meters at full 24-bit RGB at 75 MHz. Beyond this, insertion loss increases by ~20 dB/m, causing inter-symbol interference (ISI) that degrades the eye opening below the required 100 mV threshold. At 3 meters, equalization becomes necessary; however, the DS90C363 lacks receiver-side equalization, so 2.5 m is the practical limit without signal conditioning.

Does the DS90C363MTDX/NOPB require external termination components, and what values are recommended for stable operation over varying load conditions?: Yes, the DS90C363MTDX/NOPB requires 100 Ω differential termination resistors across each twisted pair at the receiver end. These must be placed as close as possible to the receiver inputs. Using 1% tolerance resistors with ±25 ppm/°C drift ensures minimal variation over temperature. Omitting or misplacing these terminations results in reflections that cause bit errors, especially at edge rates exceeding 1.5 ns.

How does supply noise affect the clock jitter performance of the DS90C363MTDX/NOPB, and what PSRR characteristics should guide PCB design?: The DS90C363MTDX/NOPB exhibits a power supply rejection ratio (PSRR) of -40 dB at 100 kHz and -55 dB at 1 MHz. Voltage ripple greater than 10 mV peak-to-peak on the 3.3 V rail can induce timing jitter exceeding 15 ps RMS, impacting sub-pixel accuracy in imaging systems. Therefore, local LDO regulation with <1 mV ripple and bypass capacitance (1 μF ceramic + 10 μF polymer) near the IC is essential.

Can the DS90C363MTDX/NOPB be used in systems requiring hot-plug capability, and what protection circuits are necessary?: Hot-plugging is not natively supported. Insertion of a powered-off receiver into the link can cause latch-up due to parasitic SCR paths. To prevent this, series resistors (22 Ω) on each differential line and TVS diodes rated for ±15 kV contact discharge are strongly recommended. Additionally, enable sequencing must ensure transmitter power-up precedes receiver activation by at least 10 ms.

What role does the base product number DS90C363 play in derivative selection, and how does it relate to footprint compatibility across TI’s FPD-Link family?: The base product number DS90C363 identifies a family of variants including the DS90C363MTDX/NOPB (48-TSSOP) and possibly pin-compatible versions in other packages like QFN or WSON. All members share the same core serializer architecture, allowing shared reference designs and software tools. However, only the TSSOP variant supports full 24-bit RGB at 75 MHz; smaller packages may omit certain test pins or limit speed grades.

How does the RoHS3 compliance status of the DS90C363MTDX/NOPB influence material selection in high-reliability aerospace vs. consumer applications?: RoHS3 compliance indicates adherence to EU Directive 2011/65/EU with exemptions for lead-free soldering above 250°C. While acceptable for most commercial and industrial use, aerospace applications often require additional outgassing control (e.g., NASA EEE-INST-002) and may mandate alternative finishes like gold wire bonding. The DS90C363MTDX/NOPB’s tin-lead-free construction meets basic environmental standards but should be validated against specific project requirements.

What diagnostic features are available in the DS90C363MTDX/NOPB for system-level troubleshooting, and how useful are they in field-deployed embedded systems?: The DS90C363MTDX/NOPB provides basic status flags such as LOS (Loss of Signal) and PLL lock indication, accessible via open-drain outputs. There is no built-in BER tester or loopback mode. For field diagnostics, external logic analyzers capturing the parallel bus or oscilloscopes probing differential pairs are typically required. This limited introspection necessitates robust link-layer error handling at the firmware level.

How does the 3.3 V supply voltage range (3.0 V to 3.6 V) of the DS90C363MTDX/NOPB affect compatibility with modern low-voltage digital logic families?: The 3.3 V nominal supply aligns with legacy TTL and many CPLD interfaces, but may not directly drive newer 1.8 V or 1.2 V FPGA banks. Level-shifting circuitry or use of Schmitt-trigger buffers is often needed to ensure clean edge detection at the receiving side. Direct interfacing with 3.3 V CMOS logic is feasible, provided input thresholds remain within spec (±0.4 V for VIH/LIL).

When selecting between the DS90C363MTDX/NOPB and alternative serializers like Analog Devices ADAV804, what trade-offs exist in latency and protocol flexibility?: The DS90C363MTDX/NOPB offers fixed 24-bit parallel-to-serial conversion with deterministic latency (~100 ns per frame), ideal for real-time video. In contrast, the ADAV804 supports configurable packetization and variable payload sizes, introducing up to 200 ns additional buffering latency. While the ADAV804 enables flexible data streaming, the DS90C363 provides lower jitter and simpler synchronization for synchronous display applications.

What precautions should be taken when reflow soldering the DS90C363MTDX/NOPB in mass production, given its MSL rating?: As an MSL2 component, the DS90C363MTDX/NOPB must be soldered within one year of unpackaging and exposed to reflow conditions no later than 168 hours after removal from dry storage. Standard SnAgCu solder profiles with peak temperatures ≤245°C and dwell time <60 seconds above 217°C are acceptable. Exceeding these parameters risks delamination or bond wire lift-off.

How does the ECCN classification (EAR99) of the DS90C363MTDX/NOPB affect export controls when shipping evaluation kits internationally?: ECCN EAR99 means the device is subject to U.S. Export Administration Regulations (EAR) but generally qualifies for license exception ENC (Encryption Commodities Notified) or License Exception LVS (Low Value Shipment), depending on unit value and destination. Exporters must still comply with local regulations in the recipient country, but routine shipments to most nations do not require formal licensing.

In a system using multiple DS90C363MTDX/NOPB links sharing a common 3.3 V rail, how can crosstalk between adjacent differential pairs be minimized during simultaneous switching?: Crosstalk between differential pairs can induce common-mode noise up to 50 mV when switching occurs within 10 ns windows. Minimization strategies include orthogonal routing of adjacent pairs, maintaining >3× trace spacing, and grouping switching loads with quiet signals. Additionally, placing ground planes beneath signal layers reduces capacitive coupling by up to 40%, improving signal isolation in dense layouts.

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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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America	United States	5
America	Brazil	7
Europe	Germany	5
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Oceania	Australia	6
Oceania	New Zealand	5
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