Dc E2h Datasheet |verified| -
): Connecting a small (0.022 µF) capacitor between the BP pin and Ground forms a low-pass filter with the internal voltage reference node. This dramatically reduces output broadband thermal noise and boosts high-frequency PSRR performance. Thermal Power Dissipation Limits
: Specifically designed for RF and wireless applications where power supply noise must be minimized.
Using the typical efficiency (η = 80%): ( P_out = 5V \times 0.1A = 0.5W ) ( P_in = P_out / η = 0.5 / 0.8 = 0.625W ) ( I_in = 0.625W / 24V = 26mA ) dc e2h datasheet
Looking for the DC E2H datasheet? Here are the essential specs and quick pointers to help you evaluate the part.
| Parameter | Value | |-------------------------|---------------------------------------------| | Port Speed | 1/10/25/50/100/200/400 GbE | | Auto-negotiation | Clause 73 (backplane) / Clause 72 (optical)| | FEC | RS-FEC (544,514) for 100G+, Base-R FEC | | Link Training | Yes – CTLE/DFE adaptive | | Breakout Support | 4x 25G, 4x 50G, 2x 100G, 1x 400G | | PTP / SyncE | IEEE 1588v2 (one-step hardware timestamp) | ): Connecting a small (0
Engineered for industrial environments, typically offering high reliability in a wide temperature range.
For RF transceivers, Bluetooth modules, and wireless networking hardware, input supply ripples can degrade signal integrity. The addition of a 10nF bypass capacitor connected to Pin 4 drops the output noise floor down to a mere . 2. Low Dropout (LDO) Profile Using the typical efficiency (η = 80%): (
PD=(VIN−VOUT)×IOUTcap P sub cap D equals open paren cap V sub cap I cap N end-sub minus cap V sub cap O cap U cap T end-sub close paren cross cap I sub cap O cap U cap T end-sub
Unlike newer digital controllers, these analog modules offer stability and proven performance.
The DC E2H is a high-efficiency, compact DC-DC converter designed for a wide range of applications, from industrial automation to consumer electronics. This component is engineered to provide a stable and efficient power supply, converting a wide input voltage range to a precise output voltage.