Cores amorphous with linear loop for transformers and chokes for ISDN networks

MSP series

MSP-series of high permeability magnetic cores with or without DC bias is designed for several types of pulse transformers in modern communication equipment for ISDN networks, local local area networks LAN, digital xDSL lines, modems, etc.

Pulse transformers and interface matching chokes for digital communication lines must have high permeability with the highest possible DC bias. Traditionally, Mn-Zn ferrite has been used as the main magnetic material for pulse transformers and interface chokes. However, in this case, due to the low permeability and, accordingly, low impedance, it is difficult to achieve small dimensions of the products. If an increase in impedance is achieved due to an increase in the number of winding turns, then the frequency characteristics deteriorate: the parasitic capacitance increases and the resonant frequency decreases. As a result, it is difficult to meet the requirements of the ITU-T I.430 standard.

The offered magnetic cores of the MSP series, made of a thin (25 µm) amorphous tape based on cobalt, provide small overall dimensions and excellent quality characteristics of pulse transformers and chokes for all ISDN interfaces: S_2m, S₀, U_p0, U_k0; optimal for xDSL technologies and data line chokes.

DESIGN

The twisted tape magnetic core is placed in a rigid protective container made of glass-filled polyamide and mechanically fixed with silicone sealant. The container has rounded edges and is designed for direct wrapping. The container provides reliable mechanical protection of the amorphous material and the preservation of its properties. All materials comply with UL94V-1/0 standard.

ADVANTAGES

High permeability with DC bias capability
Small overall dimensions
High impedance over a wide frequency range
Compliant with ITU-T I.430 standard
Low attenuation over a wide frequency range
Insulation requirements according to IEC 950, EN 60950, BS 601
Low losses
Reducing energy consumption in communication equipmen

APPLICATION

S₀ interface:

Communication between network (NT) and subscriber terminals (ST)
Communication between Automatic telephone station and Subscriber Terminals (ST)

U_p0 / U_k0 interface:

Communication between local central office and network terminal (NT1)

Interface S_2m:

Communication between the local central office and the Automatic telephone station

Recording example

MSP-10S-32, where:

MS - MSTATOR;
P - application (telecommunications);
10 - outer diameter, mm;
S - section symbol;
32 - development code

OVERALL DIMENSIONS AND MAIN CHARACTERISTICS

Core name	Dimensions in the container (D-d-H), mm	Centerline length L_m, mm	The effect. section А_с, mm	Coeff. ind-ty А_Lo* (μH / turn²)	Coeff. ind-ty А_Ldc** (μH / turn²)	Typical Application
Core name	Dimensions in the container (D-d-H), mm	Nominal	Nominal	Мin.	Min.	Typical Application
MSP-10S-32	11,1-5,1-5,8	25,5	6,1	26,0 (a)	-	S_2M
MSP-10B-30	11,1-5,3-7,6	25,5	8,2	20,7 (a)	14,1 (b)	S₀ (1mA)
MSP-10S-18	11,1-5,1-5,8	25,5	6,1	18,4 (a)	12,4 (c)	S₀ (3mA)
MSP-06A-12	6,8-3,0-4,1	15,0	3,8	9,8 (a)	6,9 (d)	S₀ (4mA)
MSP-10S-14	11,1-5,1-5,8	25,5	6,1	8,9 (a)	6,1 (e)	S₀ (5mA)
MSP-07A-08	7,5-3,0-4,2	15,9	5,2	-	0,6 (f)	U_po, DSL
MSP-10S-03	11,1-5,1-5,8	25,5	6,1	-	0,315 (g)	U_ko, DSL
* - Минимальное значение начального коэффициента индуктивности при F=10Кгц, U_rms=0,1B, T=25°C, ** - Мин. значение при подмагничивании постоянным током (U_rms=0,1B, T=25°C)
(a) - Idc = 0, F = 10 kHz
(b) - Idc x N = 19 mA x turn, F = 20 kHz
(c) - Idc x N = 66 mA x turn, F = 20 kHz
(d) - Idc x N = 120 mA x turn, F = 20 kHz
(e) - Idc x N = 145 mA x turn, F = 20 kHz
(f) - Idc x N = 4500 mA x turn, F = 10 kHz
(g) - Idc x N = 10.2 A x turn, F = 10 kHz