Teardown Finds Big Increase in Galaxy S9+ BoM

发布时间:2018-03-27 00:00
作者:Ameya360
来源:Dylan McGrath
阅读量:1672

  Samsung Electronics' Galaxy S9+ smartphone carriers an estimated bill of materials (BoM) cost about 13 percent above that of its predecessor, the Galaxy S8+, thanks to increased costs for DRAM and NAND flash memory and the smartphone's upgraded dual-lense mechanical aperture camera module, according to to a teardown analysis performed by IHSMarkit.

  The BoM cost of the Galaxy S9++ is about $375.80, about $43 more than the Galaxy S8+, according to IHS Markit. An unlocked, 64GB version of the Galaxy S9+ retails for $839.99 on Samsung's website.

  "Despite the higher cost structure for Samsung, the Galaxy S9+ offers consumers better specs at about the same price point as the Galaxy S8+, including a brighter screen and advanced camera technology," said Andrew Rassweiler, senior director of cost benchmarking services for IHS Markit, in a press statement.

  IHS Markit also found that the Galaxy S9+ is among the first smartphones to feature Qualcomm's Snapdragon 845 processor, which contains an LTE CAT18 modem.

  "The Galaxy S9+ and the Sony Xperia XZ2 are the first smartphones to use Snapdragon 845," said Wayne Lam, principal analyst for smartphone electronics at IHS Markit. "However, Samsung designed its own RF front-end interface, whereas the Sony model uses Qualcomm's RF360 solution."

  The Snapdragon 845 accommodates peak LTE speeds up to 1.2 gigabits per second (6 carrier aggregation and 4x4 MIMO support), according to IHS Markit. The device is built in second-generation 10nm from Samsung Foundry and the complete bundled chipset including supporting components from Qualcomm is estimated to cost $67, IHS Markit said.

  The Galaxy S9+'s 12-megapixel dual-lens camera includes the first variable-aperture system built into a smartphone, according to IHS Markit. The combined BoM cost for the smartphone's camera modules is $44.95, of which $34.95 is from the new primary camera, the research firm said.

  "The extraordinary primary camera module in the Galaxy S9+ costs much more to manufacture than most camera modules we have priced in the past," Rassweiler said. "Camera technology improvements continue to be a primary budget focus and performance differentiator for smartphone manufacturers."

  The IHSMarkit teardown of the Galaxy s9+ also uncovered security feature upgrades, including a new "Intelligent Scan" mode for unlocking the handset. The teardown also revealed that the Galaxy S9+'s upgraded AMOLED display carries a BoM cost of $79, the highest cost of any component of the device.

  IHSMarkit has not yet performed a teardown analysis of the Galaxy S9+'s companion, the smaller Galaxy S9. A separate teardown performed by System Plus Consulting of France earlier this year found several hardware innovations in the Galaxy S9, despite criticism from analysts and market watchers that the handset is too similar to its predecessor, the Galaxy S8.

(备注:文章来源于网络,信息仅供参考,不代表本网站观点,如有侵权请联系删除!)

上一篇:When AI Goes Awry

下一篇:Ledtech opens new facility in UK

在线留言询价

相关阅读
Samsung Starts Shipping Industry-First HBM4E Samples 3 Months After HBM4 Ramp; Performance Up 20%+
Trade news

Samsung Starts Shipping Industry-First HBM4E Samples 3 Months After HBM4 Ramp; Performance Up 20%+

  Just months after rolling out HBM4 shipments in early 2026, Samsung has begun providing samples of the industry’s first 12-layer HBM4E to major global partners, according to the company’s latest press release.  Given that HBM4 shares the same 1c DRAM process and 4nm base die architecture as HBM4E, and is already in mass production, industry observers suggest the newly shipped HBM4E samples are also well positioned to transition into mass production. Samsung adds that it plans to proceed with HBM4E mass production in line with client-specific timelines.  Meanwhile, Samsung is also expanding mass production and supply of HBM4, which became the world’s first HBM4 to enter mass production and shipment in February. In December last year, Samsung’s HBM4 received top-tier evaluation after demonstrating an industry-leading 11.7Gbps speed in System-in-Package (SiP) testing, the final certification stage, the company adds.  According to News1, the latest development makes Samsung the first to supply HBM4E. Industry observers cited by the report also noted that starting from HBM4, customer-specific design flexibility and stable large-scale supply capabilities will become even more critical. Against this backdrop, Samsung’s integrated strengths across memory, foundry, and advanced packaging are expected to stand out even more clearly, the report adds.  HBM4E Upgrade with 20% Performance Boost, 30% Higher Capacity  In terms of performance, Samsung notes that HBM4E marks a notable upgrade over the previous generation, offering a stable 14Gbps pin speed that can scale up to 16Gbps for more demanding AI workloads. Compared with HBM4, the new memory delivers over 20% higher performance and reaches bandwidth of up to 3.6TB/s per stack, significantly improving compute efficiency for large language models (LLMs) and next-generation AI systems.  Additionally, Samsung’s 12-layer HBM4E is currently offered in a 48GB capacity, which is more than 30% higher than the previous generation. The company plans to expand the lineup to include 32GB (8-layer) and 64GB (16-layer) variants to better align with diverse customer requirements as well.  From an efficiency standpoint, Samsung highlights that advanced low-power design techniques and an optimized packaging architecture have improved energy efficiency by 16% while reducing thermal resistance by more than 14% compared with the previous generation.  HBM4E Progress Among Rivals  Meanwhile, progress from SK hynix and Micron in HBM4E has come under closer market scrutiny following Samsung’s advances. According to Yonhap News Agency, SK hynix had initially planned to begin HBM4E sample shipments in the second half of this year, but recent reports indicate smoother-than-expected development progress, bringing forward its timeline.  On the other hand, Micron said its first HBM4E product will follow JEDEC standards, with mass production ramp-up targeted for 2027, according to STOCK Analysis.
2026-05-29 10:18 阅读量:336
Samsung Reportedly Develops Mobile HBM Packaging With Copper Pillars, Bandwidth Up 15%–30%
Trade news

Samsung Reportedly Develops Mobile HBM Packaging With Copper Pillars, Bandwidth Up 15%–30%

  Samsung Electronics is reportedly developing a next-generation HBM packaging technology aimed at bringing high-performance on-device AI to mobile devices. According to ETNews, sources say the company is working on a “Multi Stacked FOWLP” technology that combines ultra-high-aspect-ratio copper pillars with FOWLP (Fan-Out Wafer Level Packaging) by advancing its existing VCS (Vertical Cu-post Stack) technology.  The report notes that traditional mobile memory (LPDDR) packaging still relies on copper wire bonding. However, the technology is limited to roughly 128 to 256 I/O terminals, while also suffering from higher signal loss and lower thermal and power efficiency. To address these constraints, Samsung previously introduced its VCS (Vertical Cu-post Stack) technology, which arranges DRAM dies in a staircase-style stacked structure connected by copper pillars. The newly reported technology is viewed as a further evolution of this approach through the adoption of ultra-high-aspect-ratio copper pillars.  More specifically, Samsung has increased the aspect ratio of copper pillars used in VCS packaging from 3–5:1 to 15–20:1, significantly boosting bandwidth, the report notes. However, copper pillars thinner than 10 micrometers become more vulnerable to bending and breakage. To address this issue, Samsung reportedly combined the design with an FOWLP process, which molds the chip and extends wiring outward to help support the copper pillars.  The approach could enable more I/O terminals within the same area, potentially boosting bandwidth by 15% to 30% while increasing memory stack capacity by more than 1.5 times, the report adds.  Commercialization Timeline Remains Unclear  Meanwhile, the technology is still under development, making the timeline for mass production and commercialization unclear. However, the report says industry observers believe it could be adopted as early as a later version of the Exynos 2800 or the Exynos 2900.  Notably, some industry observers said mobile HBM development and commercialization could progress more slowly than initially expected, as demand for HBM in servers, data centers, and AI accelerators is expected to remain strong for the foreseeable future. The report adds that booming demand for server and data center HBM may make it difficult for Samsung to fully concentrate its resources on mobile HBM development.  SK hynix Advances Mobile AI Packaging  SK hynix is also accelerating development of semiconductor packaging technologies for smartphones and Extended Reality (XR) devices. According to a Hankyung report published earlier this year, sources say the company is developing “High Bandwidth Storage (HBS),” a packaging solution that vertically stacks low-power (LPDDR) DRAM and NAND flash memory beside the Application Processor (AP), which handles core computing tasks in IT devices.  Hankyung notes that HBS adopts a packaging technology called “Vertical Fan-Out” (VFO). Unlike conventional wire bonding, which connects stacked memory and substrates with thin copper wires, VFO uses pillar-shaped interconnects to enable denser wiring and faster data transfer speeds, helping APs process rapidly growing AI-driven workloads.
2026-05-15 10:49 阅读量:694
[News] Samsung Fails to Secure Qualcomm’s 3nm Orders for the Coming Year, Dual Foundry Strategy Postponed
Trade news

[News] Samsung Fails to Secure Qualcomm’s 3nm Orders for the Coming Year, Dual Foundry Strategy Postponed

  According to TechNews’ report, TSMC and Samsung fiercely compete in the semiconductor foundry sector. Earlier market reports suggested that Qualcomm’s Snapdragon 8 Gen 4 mobile processor might adopt a dual-foundry strategy with TSMC and Samsung manufacturing simultaneously.  However, according to the latest industry information, due to Samsung’s conservative expansion plan for next year’s 3nm production capacity and unstable yields, Qualcomm has officially canceled the plan to utilize Samsung for next year’s processors. The dual-sourcing model is now postponed until 2025.  Samsung began mass production of its first-generation 3nm GAA (SF3E) process at the end of June last year, marking Samsung’s initial use of the innovative GAA architecture for transistor technology. The second-generation 3nm process, 3GAP (SF3), will utilize the second-generation MBCFET architecture, optimizing it based on the foundation of the first-generation 3nm SF3E. It is expected to enter mass production in 2024.  The dual-foundry strategy for Qualcomm was initially leaked by the reputable source Revegnus via the X platform (formerly Twitter). It was mentioned that the Snapdragon 8 Gen 4 processor would adopt TSMC’s 3nm (N3E) process, while Samsung’s 3GAP process would be used for the Snapdragon 8 Gen 4 supplying Samsung’s Galaxy series smartphones. Other sources suggested that due to limited capacity at TSMC’s 3nm production, Qualcomm had to seek Samsung as an alternative chip foundry.  As a result, Qualcomm originally anticipated dual-foundry production with both TSMC and Samsung in 2024, with hopes of being the first customer for the 3GAP process. However, considering Samsung’s conservative 3nm production capacity plan for next year and the instability in yields, Qualcomm decided to scrap the plan and exclusively rely on TSMC, pushing the dual-foundry strategy to 2025.  Currently, TSMC’s 3nm process technology capacity is on the rise, with expectations that by the end of 2024, monthly production capacity will reach 100,000 wafers, and the revenue contribution will increase from the current 5% to 10%.
2023-12-01 14:48 阅读量:4046
Samsung cuts NAND flash memory production
Trade news

Samsung cuts NAND flash memory production

  According to semiconductor industry insiders, Samsung Electronics has stepped up NAND flash production cuts and has reduced NAND flash memory production by about 40%. It is expected that the production reduction will reach 50% by the end of 2023.  According to sources, Samsung has cut NAND flash production by 20% in the first half of 2023. The 50% reduction is expected to last at least one quarter before the end of the year.  Sources also said that the purpose of Samsung's production reduction is to accelerate the transformation of its process technology to improve its product structure.  The price of NAND flash memory has risen as Samsung and other manufacturers have drastically cut production or reduced investment. According to the supply chain, Samsung’s 512Gb NAND flash wafer price rose to $1.60 from the previous $1.40. It is expected that the unit price of 512Gb wafers will reach $2 by the end of this year.  Sources pointed out that as wafer costs increase, the price of flash memory devices such as consumer SSDs and enterprise solutions is rising and is expected to continue to rise before the end of the year.
2023-09-14 14:51 阅读量:5330
热门分类
盒子,外壳,机架 电缆,电线 电路保护 连接器,互连器件 开发套件 机电产品 嵌入式解决方案 风扇,热管理 光电元件 其它 无源元件 电源 半导体 传感器,变送器 测试与测量
  • 一周热料
  • 紧缺物料秒杀
型号 品牌 询价
TL431ACLPR Texas Instruments
RB751G-40T2R ROHM Semiconductor
BD71847AMWV-E2 ROHM Semiconductor
MC33074DR2G onsemi
CDZVT2R20B ROHM Semiconductor
型号 品牌 抢购
BU33JA2MNVX-CTL ROHM Semiconductor
BP3621 ROHM Semiconductor
TPS63050YFFR Texas Instruments
STM32F429IGT6 STMicroelectronics
IPZ40N04S5L4R8ATMA1 Infineon Technologies
ESR03EZPJ151 ROHM Semiconductor
热门标签
ROHM
Aavid
Averlogic
开发板
SUSUMU
NXP
PCB
传感器
半导体
原厂授权品牌
更多授权品牌>>
资讯排行榜
  • 周排行榜
  • 月排行榜

相关百科
关于我们
AMEYA360微信服务号 AMEYA360微信服务号
AMEYA360商城(www.ameya360.com)上线于2011年,现 有超过3500家优质供应商,收录600万种产品型号数据,100 多万种元器件库存可供选购,产品覆盖MCU+存储器+电源芯 片+IGBT+MOS管+运放+射频蓝牙+传感器+电阻电容电感+ 连接器等多个领域,平台主营业务涵盖电子元器件现货销售、 BOM配单及提供产品配套资料等,为广大客户提供一站式购 销服务。

请输入下方图片中的验证码:

验证码