8.8 DCC Interface Receive Timing

RX_SDCC_CLK

RX_LDCC_CLK

tVSDCFC

tVLDCFC

RX_SDCC_DATA

RX_LDCC_DATA

Figure 36. DCC Interface Receive Timing

Label

Parameter

Min

Typ.

Max

Units

RX_SDCC_CLK

RX_SDCC_CLK frequency

 

192

 

kHz

 

 

 

 

 

 

tVSDCFC

Transition RX_SDCC_DATA from RX_SDCC_CLK low

30

 

70

ns

RX_LDCC_CLK

RX_LDCC_CLK frequency

 

576

 

kHz

 

 

 

 

 

 

tVLDCFC

Transition RX_LDCC_DATA from RX_LDCC_CLK

30

 

70

ns

8.9 JTAG Interface Timing

TCK

tSTDI tHTD1

tSTMS tHTMS

TDI

TMS

tHTDO

TDO

Figure 37. JTAG Interface Timing

Label

Parameter

Min

Typ.

Max

Units

 

 

 

 

 

 

TCK

TCK frequency

 

10

 

MHz

 

 

 

 

 

 

tSTDI

Setup TDI to TCK high

10

 

 

ns

tHTDI

Hold TDI from TCK high

10

 

 

ns

tSTMS

Setup TMS to TCK high

10

 

 

ns

tHTMS

TMS from TCK high

10

 

 

ns

tHTDO

TDO valid from TCK low

 

 

15

ns

115

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Agilent Technologies HDMP-3001 manual DCC Interface Receive Timing, Jtag Interface Timing

HDMP-3001 specifications

Agilent Technologies, a prominent name in electronics and measurement technology, offers a wide range of products that cater to various industries. Among its notable offerings is the HDMP-3001, a high-speed, serial data transceiver designed to facilitate robust communications in electronic systems. The HDMP-3001 stands out with its ability to handle high bandwidths, making it particularly suited for applications requiring rapid data transfer, such as telecommunications, computer networking, and high-performance computing.

One of the main features of the HDMP-3001 is its advanced signaling technology. By employing differential signaling, the transceiver minimizes electromagnetic interference and enhances signal integrity. This is crucial in environments with multiple electronic devices operating simultaneously, as it ensures data is transmitted clearly and without degradation.

The HDMP-3001 operates at a maximum data rate of 1 Gbps, allowing for efficient data transfer over short distances. This capability is coupled with a flexible architecture that enables users to configure the transceiver for various applications. The device supports both point-to-point and point-to-multipoint configurations, giving engineers the versatility they need in designing communication links.

Moreover, the HDMP-3001 features on-chip clock recovery functionality, which simplifies system design by reducing the number of external components needed. This built-in feature allows the transceiver to maintain synchronization even as data rates increase, further enhancing performance.

The low power consumption characteristic of the HDMP-3001 is another notable advantage. This makes it an attractive choice for battery-operated devices and systems where power efficiency is critical. The transceiver’s design ensures optimal performance while minimizing heat generation and power draw, enabling longer operational lifetimes.

In terms of physical characteristics, the HDMP-3001 comes in a compact, surface-mount package, allowing for easier integration into various circuit board designs. The small form factor, combined with its innovative technology, makes it a popular choice among engineers seeking to improve data transmission reliability without compromising on space or power constraints.

Overall, Agilent Technologies' HDMP-3001 is a formidable solution for high-speed serial data transmission, characterized by its robust performance, low power consumption, and versatile configuration options. With these features, it continues to be an essential component in the evolving landscape of electronic communications.