MSK061C-0600-NN-S3-UG0-NNNN模块现货

MSK061C-0600-NN-S3-UG0-NNNN

3.仅使用低功率IP模块。IP模块的位置
是位置a（J2和J3）和位置d（J18和J19）。
通讯委员会规章
MVME162在符合FCC标准的底盘上进行了测试，没有工业包装
满足A级设备要求。FCC合规性为：
在以下条件下实现：
1.所有外部I/O端口上的屏蔽电缆。
2.通过金属外壳连接器连接到接地的电缆屏蔽
结合到导电模块前面板。
3.接地的导电底盘导轨。这提供了
将屏蔽连接到接地的路径。
4.正确拧紧前面板螺钉。
对于小射频发射，上述条件必须：
实施。否则可能会影响FCC对
包含模块的设备。
一般资料
1-6 MVME162嵌入式控制器用户手册
1.
一般说明
MVME162是配备MC68LC040的双高VMEmodule
或可选的MC68040微处理器。（MC68040微处理器具有
浮点协处理器；MC68LC040没有。）
MVME162具有1MB、4MB或8MB奇偶校验保护DRAM；512KB
SRAM（带备用电池）；TOD时钟（带备用电池）；可选
带DMA的LAN以太网收发器接口，两个串行端口（EIA-232-D
和EIA-232-D/EIA-530）；六个带看门狗定时器的滴答定时器；可选择的
带有DMA的SCSI总线接口；VMEbus接口（本地总线至
VMEbus/VMEbus至本地总线，具有A16/A24/A32、D8/D16/D32总线宽度
以及VMEbus系统控制器）。
输入/输出
输入/输出（I/O）信号通过背板连接器P2路由。A P2
适配器板或LCP2适配器板将信号和接地从
连接到MVME712系列转换模块（MVME711-12，
MVME712-13、MVME712A、MVME72AM或MVME712M）。过渡
模块将信号路由到适当的配置头，以及
行业标准连接器。参考MVME712-12、MVME713-13和MVME714-13，
MVME712A、MVME712AM和MVME712B转换模块和LCP2
适配器板用户手册或MVME712M转换模块和P2
更多信息，请参阅适配器板用户手册。
注：与MVME162一起使用时，仅打开串行端口2和4
MVME712可供使用。串行端口1和3以及
打印机端口未连接到任何MVME162电路
并且不应使用。
I/O设备可以连接到上的串行端口1（或2）
MVME162或MVME712上的串行端口2（或4），但不
二者都（即，如果I/O设备连接到MVME162
端口1，不应连接其他I/O设备
MVME712端口2；它们在功能上是相同的端口。）
一般说明
MVME162/D2 1-7
1.
VMEbus接口
可选的VMEchip2 ASIC是MVME162的VMEbus接口。
（此选项是出厂版本，不能添加到字段中。）VMEchip2
功能包括：
❏ 两个可编程32位滴答定时器
❏ 可编程看门狗定时器
❏ 用于主接口和从接口的可编程地图解码器
❏ 到/来自本地总线DMA控制器的VMEbus
❏ VMEbus到/来自本地总线的非DMA编程访问接口
❏ VMEbus中断器
❏ VMEbus系统控制器
❏ VMEbus中断处理程序
❏ VMEbus请求程序
处理器到VMEbus的传输可以是D8、D16或D32。VMEchip2 DMA
转移到VMEb

MSK061C-0600-NN-S3-UG0-NNNN

MSK061C-0600-NN-S3-UG0-NNNN

3. Use low-power IP modules only. The preferred locations for IP modules
are position a (J2 and J3) and position d (J18 and J19).
FCC Compliance
The MVME162 was tested without IndustryPacks in an FCC-compliant chassis
and meets the requirements for Class A equipment. FCC compliance was
achieved under the following conditions:
1. Shielded cables on all external I/O ports.
2. Cable shields connected to earth ground via metal shell connectors
bonded to a conductive module front panel.
3. Conductive chassis rails connected to earth ground. This provides the
path for connecting shields to earth ground.
4. Front panel screws properly tightened.
For minimum RF emissions, it is essential that the conditions above be
implemented. Failure to do so could compromise the FCC compliance of the
equipment containing the module.
General Information
1-6 MVME162 Embedded Controller User’s Manual
1
General Description
The MVME162 is a double-high VMEmodule equipped with an MC68LC040
or optional MC68040 microprocessor. (The MC68040 microprocessor has a
floating-point coprocessor; the MC68LC040 does not.)
The MVME162 has 1MB, 4MB, or 8MB of parity-protected DRAM; 512KB
SRAM (with battery backup); a TOD clock (with battery backup); an optional
LAN Ethernet transceiver interface with DMA, two serial ports (EIA-232-D
and EIA-232-D/EIA-530); six tick timers with watchdog timer(s); optional
SCSI bus interface with DMA; VMEbus interface (local bus to
VMEbus/VMEbus to local bus, with A16/A24/A32, D8/D16/D32 bus widths
and a VMEbus system controller).
Input/Output
Input/Output (I/O) signals are routed through backplane connector P2. A P2
adapter board or LCP2 adapter board routes the signals and grounds from
connector P2 to an MVME712 series transition module (MVME712-12,
MVME712-13, MVME712A, MVME712AM, or MVME712M). The transition
module routes the signals to the appropriate configuration headers and
industry-standard connectors. Refer to the MVME712-12, MVME712-13,
MVME712A, MVME712AM, and MVME712B Transition Modules and LCP2
Adapter Board User’s Manual or the MVME712M Transition Module and P2
Adapter Board User’s Manual for more information.
Notes When used with the MVME162, only serial ports 2 and 4 on
the MVME712 are available for use. Serial ports 1 and 3 and
the printer port are not connected to any MVME162 circuits
and should not be used.
An I/O device may be connected to serial port 1 (or 2) on the
MVME162 or to serial port 2 (or 4) on the MVME712, but not
both. (That is, if an I/O device is connected to MVME162
port 1, no other I/O device should be connected to
MVME712 port 2; they are functionally the same port.)
General Description
MVME162/D2 1-7
1
VMEbus Interface
The optional VMEchip2 ASIC is the VMEbus interface for the MVME162.
(This option is a factory build and cannot be added in the field.) VMEchip2
features include:
❏ Two programmable 32-bit tick timers
❏ A programmable watchdog timer
❏ Programmable map decoders for the master and slave interfaces
❏ A VMEbus to/from local bus DMA controller
❏ A VMEbus to/from local bus non-DMA programmed access interface
❏ A VMEbus interrupter
❏ A VMEbus system controller
❏ A VMEbus interrupt handler
❏ A VMEbus requester
Processor-to-VMEbus transfers can be D8, D16, or D32. VMEchip2 DMA
transfers to the VMEb