マキシム > 設計サポート > 技術資料 > アプリケーションノート > 電源回路 > APP 1044

キーワード: pulse-width modulator, modulation, PWM controller, step down controller, MAX1953, graphic cards, DDR memory, high efficiency, GPU
関連製品

アプリケーションノート1044

Design of Graphic Chip and Related Circuitry Power Supplies Using MAX1953 1MHz PWM Step-down Controller

Apr 11, 2002

Abstract: Powerful graphic chips are prevalent in personal computers and gaming consoles. Power supply requirements for the graphic processors and supporting circuitry are extremely critical from a cost-performance point of view. In this article we present graphic card power supply solutions using MAX1953 1MHz pulse-width modulator (PWM) step-down controller.

Powerful graphic chips are prevalent in personal computers and gaming consoles. In games, presentations, and web surfing, 3D graphics now take center stage and a host of third-generation 3D-chips are arriving to deliver another quantum leap in 3D-performance and video quality over anything seen to date. Fill rates of greater than 500-600 Mpixel/s, triangle rates of 20 million/s, as well as the support of other enhancements will ask a lot more from game developers, CPUs, memory, RAMDACs and even display technologies. Additionally, the power supply requirements for graphic processors and the supporting circuitry have also increased dramatically.

Power supply requirements for the graphic processors and supporting circuitry are extremely critical from a cost-performance point of view. In this article we present graphic card power supply solutions.

AGP terminations for input power:
- -3.3V @ 6A =18.9W
- - 5.0V @ 2A =10.0W
- - 12.0V @ 1A =12.0W
Typical Power Supply Requirements:

Table 1.

	Voltage	Current	Solution
GPU (Graphic Processing Unit)	1.2V or 1.5V	5A	MAX1953
DDR Memory (VDDQ)	2.5V	3A	MAX1953

Typically inexpensive solutions are required with need for some generic failure features such controlled soft start, UVLO and current limiting.

Below are several step-down solutions using the MAX1953 to generate the supply voltages listed in the table above, that features:

Single SO-8 package dual N channel MOSFET
No current sense resistor
Low input voltage operation (3.3V and 5V rails)
1 MHz switching for small size, low cost
Efficiency >90%

Figure 1 shows the step-down solution for the GPU and Figure 2 shows the solution for the DDR memory main voltage regulation.

Figure 1. The MAX1953: 1MHz switching, 1.5V/5A GPU supply, 3.3V In, 1.5V/5A out.

Table 2. Component List for 3.3V in, 1.5V/5A Output at MHz.

Component ID	Quantity	Description
C1, 2, 3, 4	4	Cap. 10µF/6.3V Cer 0805 Taiyo Yuden:JMK212F106ZG
C5	1	Cap. 180µF/4V. Panasonic: EEFUE0G181R
C6	1	Cap. 680pF/10V Cer 0402 Kemet: C0402C681M8RAC
C7	1	Cap. 39pF/10V Cer 0402 Kemet: C0402C390K8GAC
D1	1	Diode, Schottky, 40V, 1A, SOT-23F, Central: CMPSH1-4
IC	1	IC, Synch. Buck controller: MAX1953
L1	1	Inductor, 0.68µH, 12A, 5mΩ. Coilcraft: DO3316P-681HC
R1	1	Resistor, 7.15K, 1%, 0603 case
R2	1	Resistor, 8.06K, 1%, 0603 case
R3	1	Resistor, 82K, 5%, 0603 case
Q1/2	1	Transistor, Dual MOSFET, Fairchild: FDS6898A, 20V, 0.013Ω

Note: For 1.2V output, change R1 to 4.12K, 1%, and R3 to 68K, 5%.

Figure 2 shows the plot of efficiency versus output current of the 1.5V, 5A circuit.

Figure 2.

Figure 3. The MAX1953: 1MHz switching, 2.5V/3A memory VDDQ supply.

Table 3. Component List for 5V in, 2.5V/3A Output at 1MHz.

Component ID	Quantity	Description
C1, 2, 3	3	Cap. 10µF/6.3V Cer 0805 Taiyo Yuden:JMK212F106ZG
C4, 5	2	Cap. 10µF/4V Cer 0805 Taiyo Yuden:AMK212BJ106MG
C6	1	Cap. 560pF/10V Cer 0402 Kemet: C0402C561M8RAC
D1	1	Diode, Schottky, 40V, 1A, SOT-23F, Central: CMPSH1-4
IC	1	IC, Synch. Buck controller: MAX1953
L1	1	Inductor, 1.5µH, 3.4A, 30mΩ: Toko# 817FY-1R5M
R1	1	Resistor, 17.4K, 1%, 0603 case
R2	1	Resistor, 8.06K, 1%, 0603 case
R3	1	Resistor, 33K, 5%, 0603 case
Q1/2	1	Transistor, Dual MOSFET, Fairchild: FDS6898A, 20V, 0.013Ω

Figure 4 shows the plot of efficiency vs. output current for the 2.5V, 3A circuit.

Figure 4.

The above circuits show that the MAX1953 can be used to generate both the GPU and the memory supply rails for graphic cards. The capability of operating down to 3V input of the MAX1953 allows the total output power to be drawn from both input supplies, 3.3V and 5V, so that neither of these rails is overloaded. The 1MHz switching frequency helps reduce filter inductor and capacitors size and cost.

関連製品
MAX1953	低コスト、高周波、電流モードPWMバックコントローラ	無料サンプル

次のステップ
EE-Mail	EE-Mail配信の登録申し込みをして、興味のある分野の最新ドキュメントに関する自動通知を受け取る。
Download	ダウンロード、PDFフォーマット (64kB)
シェア	その他のチャンネル E-Mailこのページを知り合いに送る。

フィードバックをお寄せください。
内容に満足されましたか、あるいは満足されていませんか？もっと良いページにできると思いますか？あるいは、単なるコメントでも結構です。フィードバックをお待ちしています。—マキシムはお客様からいただく訂正、提案を元に改善していきます。このページを評価し、フィードバックを送信する。

APP 1044: Apr 11, 2002
アプリケーションノート1044, AN1044, AN 1044, APP1044, Appnote1044, Appnote 1044

その他のチャンネル

E-Mail

その他

ダウンロード、PDFフォーマット (64kB)

Design of Graphic Chip and Related Circuitry Power Supplies Using MAX1953 1MHz PWM Step-down Controller

シェア

その他