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描述

The Riverside design (MAXREFDES8#) uses an H-bridge transformer driver (MAX256) and a low dropout (LDO) linear regulator (MAX1659) to create a 12V (15V) output isolated power supply from a 3.3V voltage input (Figure 1). This general-purpose power solution can be used in many different types of isolated power applications, but is mainly targeted for industrial sensors, industrial automation, process control, and medical applications.

Figure 1. The Riverside subsystem design block diagram.

Figure 1. The Riverside subsystem design block diagram.

优势和特点

Features

  • Isolated power
  • 12V (15V) output
  • Small printed circuit board (PCB) area
  • Pmod-compatible form factor

Applications

  • Industrial sensors
  • Process control
  • Industrial automation
  • Medical
重要通知及免责声明
请阅读关于ADI设计信息和资源的参考设计免责声明。

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详情

The Riverside design (MAXREFDES8#) uses an H-bridge transformer driver (MAX256) and a low dropout (LDO) linear regulator (MAX1659) to create a 12V (15V) output isolated power supply from a 3.3V voltage input (Figure 1). This general-purpose power solution can be used in many different types of isolated power applications, but is mainly targeted for industrial sensors, industrial automation, process control, and medical applications.

Figure 1. The Riverside subsystem design block diagram.

Figure 1. The Riverside subsystem design block diagram.

Features

  • Isolated power
  • 12V (15V) output
  • Small printed circuit board (PCB) area
  • Pmod-compatible form factor

Applications

  • Industrial sensors
  • Process control
  • Industrial automation
  • Medical

Riverside参考设计子系统采用3.3V直流电源供电,MAX256 H桥变压驱动器的开关频率大约为475KHz,可以驱动匝数比为1:2.6的原侧,如采用Halo® Electronics的TGM-H281NF变压器。变压器副边连接倍压电路,将交流电压转换为直流输出。MAX1659线性稳压器将电压稳定在12V,齐纳二极管D3用于保护线性稳压器,确保输入电压不高于16.1V。

输入电源可从J1 Pmod兼容连接器接入,也可以将外部电源连接到EXT3.3V和DGND连接器。简单修改LDO的反馈电阻R2、R3,即可改变输出电压。

MAX1659的输出电压由以下公式决定:

VOUT = VSET × (1 + R2/R3)

其中 VSET = 1.21V

例如,对于需要采用15V输出的应用场合,将R2改为187kΩ,R3改为16.2kΩ。某些对输出电压纹波要求非常高的情况下,此时,可以在LDO前端增加一个低通LC π型滤波器。

设计中的隔离变压器提供1500VRMS电压隔离,满足UL60950和EN60950认证要求,“功能上”满足绝缘等级规定。

需要设备

  • Riverside (MAXREFDES8#)板
  • 3.3V 1A电源
  • 数字电压表

评估步骤

Riverside板是完全安装并经过测试的电路板,按照以下步骤确认操作。

  1. 将旁路器放置在JU1的1–2位置
  2. 电源正端连接到EXT_+3.3V连接器
  3. 电源负端连接到DGND连接器
  4. 电压表正端连接到+12V连接器
  5. 电压表负端连接到GND连接器
  6. 打开电源
  7. 用电压表测量输出电压

对Riverside设计的12V和15V两种输出情形进行测试,通过调整R2、R3阻值可以获得其它输出电压。

设置为12V输出时,电路可以提供最大165mA的负载电流。当设置为15V时,可以提供60mA的负载电流。

为了提高负载驱动能力,用户可以提高输入电源的电压或适当提高变压器匝比。更多信息,请参考MAX256数据资料。图2和图3中注释了功率效率。

Figure 2. Power efficiency vs. current load for 12V output.

图2. 12V输出电压下的效率

Figure 3. Power efficiency vs. current load for 15V output.

图3. 15V输出电压下的效率

输出噪声可以很好地控制在输出电压的0.5%以内,噪声主要来源于MAX256的开关脉冲。图4和图5显示空载下,12V和15V输出的典型噪声特性;图6和图7显示满载情况下,12V和15V输出的典型噪声特性。

Figure 4. Noise at VOUT = 12V, IOUT = 0mA.

图4. 噪声特性:VOUT = 12V、IOUT = 0mA

Figure 5. Noise at VOUT = 15V, IOUT = 0mA.

图5. 噪声特性:VOUT = 15V、IOUT = 0mA

Figure 6. Noise at VOUT = 12V, IOUT = 165mA.

图6. 噪声特性:VOUT = 12V、IOUT = 165mA

Figure 7. Noise at VOUT = 15V, IOUT = 60mA.

图7. 噪声特性:VOUT = 15V、IOUT = 60mA

Halo is a registered trademark of Halo Electronics, Inc.
Pmod is a trademark of Digilent Inc.

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