An experimental 4Mb CMOS DRAM

1986 IEEE International Solid-State Circuits Conference. Digest of Technical Papers Pub Date : 1900-01-01 DOI:10.1109/ISSCC.1986.1157013

T. Furuyama, T. Ohsawa, Y. Watanabe, H. Ishiuchi, T. Tanaka, K. Ohuchi, H. Tango, K. Natori, O. Ozawa

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引用次数: 26

Abstract

technology developments were performed, in addition to the use of previously-established technologies, some of which have been demonstrated for 1 M CMOS DRAMs”~. The RAM was fabricated in a twintub CMOS process with 1 . 0 ~ design rules, which are affordable minimum limits for VLSIs obtained by present aligners. The array consists of trenched, N-channel, depletion-type capacitor cells in a P-well, which helps to reduce soft error rate314. Figure 1 shows a cross-sectional SEM microphotograph of the cell. Cell storage capacitance is 40fF with a 31-1 deep trench. Even though they are not necessari1y needed for Vcc/2 for precharged bitlines, dummy cells having a full memory cell capacitance and Vcc /2 level are adopted making the sense amplifiers less susceptible to bitline precharge level variations. Memory cell, dummy cell, and sense amplifier circuitry are shown in Figure 2. Considering a transition from llrl to 4M, many problems become more serious. One of these problems is operating current. The RAM is divided into eight 512K blocks. Together with Vcc/2 bitline precharge, one fourth of the blocks is activated during each RAS operating cycle to reduce power dissipation due to bitline discharge. However, the active current and especially the peak current are still not small enough to neglect since these are causes of V c c and VSS noise. Thus, an exclusive power supply wiring technique for sense amplifiers is applied to avoid the effect of bitline discharge and reduce current noise in peripheral circuit operation. Since memory test time markedly increases with memory size, the RAM has an 8b parallel test mode operation which suppresses the RAM test time. This mode is available for both x1 and x4 packaged device testing as well as for die sort testing. The test mode is activated by applying a high voltage to an extra TEN (test enable) pad. To obtain a high quality 4M DRAM, several new circuit and process

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实验性4Mb CMOS DRAM

除了使用先前建立的技术外，还进行了技术开发，其中一些技术已用于1m CMOS dram”~。该RAM采用双通道CMOS工艺制造。0 ~设计规则，这是目前校准器获得的vlsi可承受的最小限制。该阵列在p阱中由沟槽、n通道、耗尽型电容器单元组成，这有助于降低软错误率。图1显示了细胞的横切面SEM显微照片。电池存储电容为40fF，槽深为31-1。尽管对于预充位线的Vcc/2并不一定需要，但采用了具有全存储单元电容和Vcc/2电平的虚拟单元，使感测放大器不太容易受到位线预充电平变化的影响。存储单元、虚拟单元和感测放大电路如图2所示。考虑到从lll到4M的过渡，许多问题变得更加严重。其中一个问题是工作电流。RAM分为8个512K块。加上Vcc/2位线预充电，在每个RAS工作周期中，四分之一的区块被激活，以减少位线放电造成的功耗。然而，有源电流，特别是峰值电流仍然不够小，不能忽略，因为这些是vcc和VSS噪声的原因。为避免位线放电的影响，降低外围电路工作时的电流噪声，采用了一种专用的感测放大器供电布线技术。由于内存测试时间随着内存大小的增加而显著增加，因此RAM具有8b并行测试模式操作，这抑制了RAM测试时间。此模式可用于x1和x4封装器件测试以及die sort测试。测试模式通过对额外的TEN(测试使能)垫施加高电压来激活。为了获得高质量的4M DRAM，采用了几种新的电路和工艺

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1986 IEEE International Solid-State Circuits Conference. Digest of Technical Papers

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